College Of Engineering Division Of Mechanical Engineering

College/Department info
Dept. location
Phone 02-2220-2298 Fax 02-2220-2299
Email / joohee0420@hanyang.ac.kr
Homepage
SNS

Introduction

Mechanical Engineering has the longest history in engineering, and, from a very simple machine to a very complex robot-like machine design, this leading-edge engineering encompasses production and utilization of the entire process of engineering.  Mathematical representation of physical laws such as mass, momentum, and energy conservation law explaining natural phenomena, is the applied science to apply and is application to engineering design.

Based on these studies, mechanical engineering is active not only in automobile, ship, aeronautics, robotics but also in the semiconductor process and steel industries. Recently, this field has expanded its position in physics as well as the field of bioengineering and  materials engineering where fusion of chemistry, life science and research on medical equipment is carried out. Therefore, mechanical engineering is said to be a study of different colors that make up the basis of all industry sectors.

Information

info Division of Mechanical Engineering

Highlights

Mechanical Engineering covers a wide range of fields
Mechanical Engineering is a discipline developed on the basis of dynamics in physics. In reference to the department curriculum, you will learn design, analysis, experiments, in addition to knowledge of the applied subjects based on the four dynamics of dynamics, material mechanics, thermodynamics, and hydrodynamics. Therefore, looking at the range of courses to be learned during the four years of university, you will learn the knowledge used in the manufacturing industry as well as in all industrial fields which will make it possible to design diversely compared to other engineering fields. Recently, not only in the research and development of companies but also in the fields of marketing and purchasing,  mechanical engineering is widely used, and it is increasingly showing its effect to the point that the scope of engineering has not yet reached. By learning a wide range of fields, recently Hanyang University’s Mechanical Engineering has occupied the top rank of CEOs from a science and engineering background, and the scope of its establishment tends to diversify year by year. Having the opportunity to work with various fields is the greatest advantage of this department.

Easy to assimilate with other fields 
People often think that mechnical engineering only covers the depth of dynamics. However, it is a widely developed academic discipline in combination with electronic electricity, communication, life science, new materials, and chemistry. The easy integration is due to a basic underlying science in industrial technology. In combination with the dynamics of learning semiconductors, the investigation of robots, called mechatronics was born. Each subject of mechanical engineering can be combined with other studies and fully integrated. Therefore, if you major in mechanical engineering, it is much easier to become a fusion engineer in combination with other fields and  be more active in a wide range of fields.

Outlook

Outlook
Companies Machinery manufacturers, industrial machinery manufacturing companies, automobile manufacturers, auto parts production companies,
Automobile maintenance and inspection companies, aircraft manufacturing companies, aircraft parts companies, shipyards, etc.
Public Organization /Government Government post related to mechanical engineering, Korea Institute of Machinery & Materials, Korea Institute of Industrial Technology, Korea Research Institute of Standards and Science, Korea Institute of Science and Technology,
Korea Atomic Energy Research Institute, Korea Institute of Energy Research, etc
Technology Field Mechanical engineering technician, aviation engineering technician, car engineering technician, marine engineering technician, mechatronics engineering technician
Education professor
Others Patent attorney
Faculty info
Jae-Heon Lee

Jae-Heon Lee / Adjunct Professor

Yongmo Kim

Yongmo Kim / Professor

LEE,KWAN-SOO

LEE,KWAN-SOO / Professor

Young Tag Keum

Young Tag Keum / Professor

Dong-Hoon Choi

Dong-Hoon Choi / Professor

Seung-Jong Yi

Seung-Jong Yi / Professor

Sehun Rhee

Sehun Rhee / Professor

Cho Jin Soo

Cho Jin Soo / Professor

Sung-Chong Chung

Sung-Chong Chung / Professor

Yoo, Hong Hee

Yoo, Hong Hee / Professor

Kim Jay Jung

Kim Jay Jung / Professor

Jong Hyeon Park

Jong Hyeon Park / Professor

Sang Hwan Lee

Sang Hwan Lee / Professor

Han Seog Young

Han Seog Young / Professor

Kim, Deok-Soo

Kim, Deok-Soo / Professor

Ha, SungKyu
JHANG KYUNG YOUNG

JHANG KYUNG YOUNG / Professor

Jang, Gunhee

Jang, Gunhee / Professor

Tae-Won Kim

Tae-Won Kim / Professor

UM, Sukkee

UM, Sukkee / Professor

Park, Sungwook

Park, Sungwook / Associate Professor

Seung-Jae Moon

Seung-Jae Moon / Professor

Song, Simon

Song, Simon / Professor

Junhong Park

Junhong Park / Professor

Yook, Se-Jin

Yook, Se-Jin / Associate Professor

Hak-Sung Kim

Hak-Sung Kim / Associate Professor

YoonGIlHo

YoonGIlHo / Associate Professor

Kim, Young Beom

Kim, Young Beom / Assistant Professor

Kim, Dong Rip

Kim, Dong Rip / Assistant Professor

Park, Kwan Kyu

Park, Kwan Kyu / Assistant Professor

Erfan Zal Nezhad

Erfan Zal Nezhad / Assistant Professor

CHANGHWAN KIM

CHANGHWAN KIM / 학연교수

  • 02-958-6948
Lee, Heon Ju

Lee, Heon Ju / 학연교수

  • 02-958-5698
Han, Sang Soo

Han, Sang Soo / 학연교수

  • 02-958-5441
Meisam Takalloozadeh

Meisam Takalloozadeh / Post-Doc.

Ravi Bolagam

Ravi Bolagam / Post-Doc.

Rhokyun Kwak

Rhokyun Kwak / Assistant Professor

Hongyun So

Hongyun So / Assistant Professor

Ki Hyuk Sung

Ki Hyuk Sung / Adjunct Professor

Ryu, Sungmin

Ryu, Sungmin / Adjunct Professor

강명순

강명순 / Emeritus Professor

윤갑영

윤갑영 / Emeritus Professor

한응교

한응교 / Emeritus Professor

염성하

염성하 / Emeritus Professor

Kwang Sic Kim

Kwang Sic Kim / Emeritus Professor

손병진

손병진 / Emeritus Professor

NAM PEONG WOO

NAM PEONG WOO / Emeritus Professor

Pak, Hi Yong

Pak, Hi Yong / Emeritus Professor

JUNG KYU KIM

JUNG KYU KIM / Emeritus Professor

Jang-Keun Lim

Jang-Keun Lim / Emeritus Professor

Lee, Chang Sik

Lee, Chang Sik / Emeritus Professor

Song, Chang-seop

Song, Chang-seop / Emeritus Professor

Maeng, Joo Sung

Maeng, Joo Sung / Emeritus Professor

Jae-Eung Oh

Jae-Eung Oh / Emeritus Professor

College/Department curriculum
Year Term No. Curriculum Course Credits-lecture-experiential learning  
1 1 0000001 General Studies by Area 4-4-0
1 1 CHM1005 General Chemistry & Experiment 1 Compulsory General Studies 3-3-2
GEN070 General Chemistry Lab 1 Introduction to chemistry, aim to understand the structures and the properties of matters in micro- and macroscopic view. Introduction, stoichiometry and the mole concept, the behavior of gases, liquids and solids, thermochemistry, electronic structure of atoms and chemical bonding, descriptive chemistry of selected elements and compounds, chemical equilibrium.
1 1 COE1001 Descriptive Geometry & Drawing Elective Major 3-2-2
By the projection law really is accurate and three-dimensional is precise, cultivation Sikkim and simultaneously it will think a space imaginative power in one portion of utility geometry and the shape, development and the metal tubing of the object thwu it will educate, will lecture actual training it will lead and and it will reach and and and there is a place where it familiarizes with introduction process of hour back industry system and.
1 1 COE1009 Introduction to Practical Engineering Compulsory General Studies 2-2-0
The course stresses overall comprehension of engineering and creative thinking. In this course, students can develop basic skills such as speaking , writing, presentation, and take part in group works as well as field trips. The course also provides lectures by guest speakers who work for engineering industry or related research institutions. The guest speakers will show various forms of practical engineering from their experience. Active responds from students are highly welcomed.
1 1 CUL0011 Basic Computer Programming Compulsory General Studies 2-2-1
CUL011 BASIC COMPUTER PROGRAMMING This course introduces the basic concepts of computer hardwares and softwares. Students will also learn the applications of computers to various services by carrying out experiments. Topics to be covered include CPU(Central Processing Unit), Input/Output devices, storage devices, multimedia, internet, programming languages, operating systems, system analysis and design, management information system, word processing and desktop publishing, spread sheet and graphics, and database management systems.
1 1 CUL3011 General Physics & Experiment 1 Compulsory General Studies 3-3-2
CUL311 General Physics This course covers the basic principles in mechanics and electromagnetism. Topics include the force and motion of objects, momentum and energy, charge and electric fields, current and magneic fields, and electromagnetic waves.
1 1 GEN1093 Practical English Conversation 1 Compulsory General Studies 3-4-0
GEN 193 Practical English Conversation 1 The objective of this program is to develop communicative competence and motivation to communicate in English both inside and outside of the classroom. The rationale for the program is basically to provide students with a sound opportunity to develop the 4 language skills: listening, speaking, reading and writing. The proposed program combines spoken and reading components in a single class format with clear emphasis on spoken English; it utilizes a communicative approach, targeting spoken language skills in conjunction with reading skills, and reserving writing for homework (although minimal writing will be done in class). The 4 language skills will be integrated witin a well-conceived spoken English program which emphasizes speaking time in class.
1 1 GEN2052 Calculus 1 Compulsory General Studies 3-3-0
GEN252 Calculus1 Calculus is an essential knowledge for natural sciences and engineering. This course present the part of calculus which include taking limits, differentiating and integrating functions including a few transcendental ones and also deals with polar coordinate system, sequences and series. The aim of the course is to teach the students the basic concepts of mathematics and to train them so that they may be able to apply these basic concepts to various situations and may get used to scientific thinking.
1 1 CEO0014 Future of the Mechanical Engineering and Aerospace Engineering Elective Major 2-2-0
This lecture will be introduce hot issue and new technology of the mechanical enginnering and aerospece engineering. Specialist of Involving Industry or Laboratory is invitated for this lecture.
1 1 CHM1005 General Chemistry & Experiment 1 Compulsory General Studies 3-3-2
CHM105 General Chemistry and Lab 1 Aim to understand the structures and the properties of matters in micro- and macroscopic view. Introduction, stoichiometry and the mole concept, the behavior of gases, liquids and solids, thermochemistry, electronic structure of atoms and chemical bonding, descriptive chemistry of selected elements and compounds, chemical equilibrium. Lecture, lab, and discussion. Open to Freshmen.
1 1 COE1009 Introduction to Practical Engineering Compulsory General Studies 2-2-0
The course stresses overall comprehension of engineering and creative thinking. In this course, students can develop basic skills such as speaking, writing, and presentation and take part in group works as well as field trips. The course also provides lectures by guest speakers who work for engineering industry or related research institutions. The guest speakers will show various forms of practical engineering from their experience. Active responds from students are highly welcomed.
1 1 CUL1049 Computer & Information Society Compulsory General Studies 2-2-2
CUL149 Computer and Information Society This course introduces the basic concepts of computer hardwares and softwares. Students will also learn the applications of computers to various services by carrying out experiments. Topics to be covered include CPU(Central Processing Unit), Input/Output devices, storage devices, multimedia, internet, programming languages, operating systems, system analysis and design, management information system, word processing and desktop publishing, spread sheet and graphics, and database management systems.
1 1 CUL3011 General Physics & Experiment 1 Compulsory General Studies 3-3-2
CUL311 General Physics and Experiment 1 The goal of this course is to make you familiar, at the conceptual and basic problem-solving level, with the physics of mechanics, electricity, magnetism, heat, and waves, optics and modern physics. The basic philosophy of CUL311 can be summarized as follows: The approaches used to achieve these goals involve 1) lectures to interactively discuss and demonstrate the principles, 2) laboratory experiments allowing you to actively explore these principles, and 3) interaction with instructors in discussion sections to provide one-on-one help with concepts and problem solving.
1 1 GEN1093 Practical English Conversation 1 Compulsory General Studies 3-4-0
GEN 193 Practical English Conversation 1 The objective of this program is to develop communicative competence and motivation to communicate in English both inside and outside of the classroom. The rationale for the program is basically to provide students with a sound opportunity to develop the 4 language skills: listening, speaking, reading and writing. The proposed program combines spoken and reading components in a single class format with clear emphasis on spoken English; it utilizes a communicative approach, targeting spoken language skills in conjunction with reading skills, and reserving writing for homework (although minimal writing will be done in class). The 4 language skills will be integrated witin a well-conceived spoken English program which emphasizes speaking time in class.
1 1 GEN2052 Calculus 1 Compulsory General Studies 3-3-0
GEN252 Calculus1 Calculus is an essential knowledge for natural sciences and engineering. This course presents the part of calculus which includes taking limits, differentiating and integrating functions including a few transcendental ones and also deals with polar coordinate system, sequences and series. The aim of the course is to teach the students the basic concepts of mathematics and to train them so that they may be able to apply these basic concepts to various situations and may get used to scientific thinking.
1 1 GEN4091 Philosophical Understanding of Science and Technology Compulsory General Studies 2-2-0
This course aims to cultivate among students the comprehensive understanding of science and technology in modern society, employing philosophical methods and concepts. To do this, the course offers a survey of some important theoretical results recently obtained in science and technology studies. We will carefully examime a number of concrete case-studies, ranging from the electrification of America, quantum revolution to the introduction of western science to traditional Korea. We will then discuss the intrinsic nature of modern science and technology as well as its socio-cultural aspects in the context of modern society. Students who take the course shall appreciate how modern science and technology from the nineteenth century has come to manifest a number of unique characteristics, which can be clearly distinguished from the science and technology of even, the eighteenth century. We will discuss in the class the significance of this difference. The course will also highlights the importance of dialogue between experts with different background and encourage more interactions between humanities and natural sciences, so that we can make well-informed and reasonable decisions concerning complicated issues which are so common in our multi-layered society.
1 1 CHM1005 General Chemistry & Experiment 1 (Compulsory) Requirement in Fundamental Studies 3-3-2
CHM105 General Chemistry and Lab 1 Aim to understand the structures and the properties of matters in micro- and macroscopic view. Introduction, stoichiometry and the mole concept, the behavior of gases, liquids and solids, thermochemistry, electronic structure of atoms and chemical bonding, descriptive chemistry of selected elements and compounds, chemical equilibrium. Lecture, lab, and discussion. Open to Freshmen.
1 1 CUL3011 General Physics & Experiment 1 (Compulsory) Requirement in Fundamental Studies 3-3-2
CUL311 General Physics and Experiment 1 This course is for the undergraduate students majoring in science- and engineering-fields. This course helps students to understand the basic concepts on mechanics, gravitation, periodic motion and waves, fluid mechanics, thermodynamics and statistical mechanics. It also makes them adept in solving the relevant problems. In each week the course is composed of 3-hour theory lecture and 2-hour lab experiments. Throughout the theory lectures, the students will learn how to understand various phenomena concerning forces and motions based on some fundamental principles and physical laws. The students can broaden their understanding of basic physical concepts by solving homework problems. In the lab experiments, the students get familiar with the scientific analysis methodology by performing the experiments that verify the proposed principles.
1 1 GEN1093 Practical English Conversation 1 (Compulsory) Requirement in Fundamental Studies 3-4-0
The objective of this program is to develop communicative competence and motivation to communicate in English both inside and outside of the classroom. The rationale for the program is basically to provide students with a sound opportunity to develop the 4 language skills: listening, speaking, reading and writing. The proposed program combines spoken and reading components in a single class format with clear emphasis on spoken English; it utilizes a communicative approach, targeting spoken language skills in conjunction with reading skills, and reserving writing for homework (although minimal writing will b done in class). The 4 language skills will be integrated witin a well-conceived spoken English program which emphasizes speaking time in class.
1 1 GEN2052 Calculus 1 (Compulsory) Requirement in Fundamental Studies 3-3-0
Calculus is an essential knowledge for natural sciences and engineering. This course present the part of calculus which include taking limits, differentiating and integrating functions including a few transcendental ones and also deals with polar coordinate system, sequences and series. The aim of the course is to teach the students the basic concepts of mathematics and to train them so that they may be able to apply these basic concepts to various situations and may get used to scientific thinking.
1 1 GEN4091 Philosophical Understanding of Science and Technology (Compulsory) Requirement in Fundamental Studies 2-2-0
This course aims to cultivate among students the comprehensive understanding of science and technology in modern society, employing philosophical methods and concepts. To do this, the course offers a survey of some important theoretical results recently obtained in science and technology studies. We will carefully examime a number of concrete case-studies, ranging from the electrification of America, quantum revolution to the introduction of western science to traditional Korea. We will then discuss the intrinsic nature of modern science and technology as well as its socio-cultural aspects in the context of modern society. Students who take the course shall appreciate how modern science and technology from the nineteenth century has come to manifest a number of unique characteristics, which can be clearly distinguished from the science and technology of even, the eighteenth century. We will discuss in the class the significance of this difference. The course will also highlights the importance of dialogue between experts with different background and encourage more interactions between humanities and natural sciences, so that we can make well-informed and reasonable decisions concerning complicated issues which are so common in our multi-layered society.
1 1 GEN5029 Career Development Ⅰ (Compulsory) Requirement in Fundamental Studies 1-1-0
The ‘seminar for freshman students’ aims to cover the following aspects: etiquettes of the university life; how to use the university facilities; how to improve oneself and provision of ideal ways to utilize the student period. It aims to broaden the 1st year students’ point of view to their majors as well as the university life in general. The lecture will discuss studying skill including taking notes, taking exams, time management and subject enrollment in order to guide students to achieve an ideal studying pattern and further to set up a career path. It will also deal with basic information about diverse study areas, domestic and international social issues and career development.
1 1 SYH0001 HUMAN LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The first step of this program, Hanyang Leadership(HELP1) is the core course for freshmen. This course is composed of 3 parts, "pride in Hanyang", "core values in global society" and "life planning". In "pride in Hanyang" students will review the history, values and vision of Hanyang University. In "core values in global society" students will study 6 core values and case study on the core values of global companys. In "life planning" students will reflect on their history and present and develop the vision and mission statement.
1 1 CHM1005 General Chemistry & Experiment 1 (Compulsory) Requirement in Fundamental Studies 3-3-2
CHM105 General Chemistry and Lab 1 Aim to understand the structures and the properties of matters in micro- and macroscopic view. Introduction, stoichiometry and the mole concept, the behavior of gases, liquids and solids, thermochemistry, electronic structure of atoms and chemical bonding, descriptive chemistry of selected elements and compounds, chemical equilibrium. Lecture, lab, and discussion
1 1 COE1031 INTRODUCTION TO ENGINEERING DESIGN 1 Core Major 2-2-0
To provide students with the use of problem-solving skills for solving realistic engineering problems using problem-based learning techniques, including definition of problem, creative problem solving, design of experiments, and optimization. To familiarize students with experience working as a member of an engineering work team, with experience using several modern tools and techniques to solve engineering problems. This course will help you develop the skills necessary to solve the real engineering problems facing engineers today. You will learn underlying principles and master techniques to solve engineering problems.
1 1 COE2022 Introduction to Engineering Design Core Major 3-3-0
To provide students with the use of problem-solving skills for solving realistic engineering problems using problem-based learning techniques, including definition of problem, creative problem solving, design of experiments, and optimization. To familiarize students with experience working as a member of an engineering work team, with experience using several modern tools and techniques to solve engineering problems. This course will help you develop the skills necessary to solve the real engineering problems facing engineers today. You will learn underlying principles an master techniques to solve engineering problems.
1 1 CUL0005 Korean Speaking and Writing (Compulsory) Requirement in Fundamental Studies 3-4-0
This class is opened in intention to express creative imagination though speech and writing. This class is divided by 2 parts explaining writing and thoughts, speech and culture. Writing and thoughts contains association training, structures of writing, description, compare and contrast and writing logical sentences. Speech and culture criticizes culture and literature. Both parts contains many programs that enables students to participate. That should make the class interesting and also valuable.
1 1 CUL3011 General Physics & Experiment 1 (Compulsory) Requirement in Fundamental Studies 3-3-2
CUL311 General Physics and Experiment 1 This course is for the undergraduate students majoring in science- and engineering-fields. This course helps students to understand the basic concepts on mechanics, gravitation, periodic motion and waves, fluid mechanics, thermodynamics and statistical mechanics. It also makes them adept in solving the relevant problems. In each week the course is composed of 3-hour theory lecture and 2-hour lab experiments. Throughout the theory lectures, the students will learn how to understand various phenomena concerning forces and motions based on some fundamental principles and physical laws. The students can broaden their understanding of basic physical concepts by solving homework problems. In the lab experiments, the students get familiar with the scientific analysis methodology by performing the experiments that verify the proposed principles.
1 1 GEN2052 Calculus 1 (Compulsory) Requirement in Fundamental Studies 3-3-0
Calculus is an essential knowledge for natural sciences and engineering. This course present the part of calculus which include taking limits, differentiating and integrating functions including a few transcendental ones and also deals with polar coordinate system, sequences and series. The aim of the course is to teach the students the basic concepts of mathematics and to train them so that they may be able to apply these basic concepts to various situations and may get used to scientific thinking.
1 1 GEN5029 Career Development Ⅰ (Compulsory) Requirement in Fundamental Studies 1-1-0
The ‘seminar for freshman students’ aims to cover the following aspects: etiquettes of the university life; how to use the university facilities; how to improve oneself and provision of ideal ways to utilize the student period. It aims to broaden the 1st year students’ point of view to their majors as well as the university life in general. The lecture will discuss studying skill including taking notes, taking exams, time management and subject enrollment in order to guide students to achieve an ideal studying pattern and further to set up a career path. It will also deal with basic information about diverse study areas, domestic and international social issues and career development.
1 1 GEN6044 Hanyang Community Service (Compulsory) Requirement in Fundamental Studies 1-0-2
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
1 1 SYH0001 HUMAN LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The first step of this program, Value Leadership(HELP1) is the core course for freshmen. This course is composed of 3 parts, "pride in Hanyang", "core values in global society" and "life planning." In "pride in Hanyang", students will review the history, values and vision of Hanyang University. In "core values in global society", students will study 6 core values and cases on the core values of global companies. In "life planning", students will reflect on their past and present and develop their vision and mission statement.
1 1 CHM1005 General Chemistry & Experiment 1 (Compulsory) Requirement in Fundamental Studies 3-3-2
CHM105 General Chemistry and Lab 1 Aim to understand the structures and the properties of matters in micro- and macroscopic view. Introduction, stoichiometry and the mole concept, the behavior of gases, liquids and solids, thermochemistry, electronic structure of atoms and chemical bonding, descriptive chemistry of selected elements and compounds, chemical equilibrium. Lecture, lab, and discussion. Open to Freshmen.
1 1 COE2022 Introduction to Engineering Design Core Major 3-3-0
To provide students with the use of problem-solving skills for solving realistic engineering problems using problem-based learning techniques, including definition of problem, creative problem solving, design of experiments, and optimization. To familiarize students with experience working as a member of an engineering work team, with experience using several modern tools and techniques to solve engineering problems. This course will help you develop the skills necessary to solve the real engineering problems facing engineers today. You will learn underlying principles an master techniques to solve engineering problems.
1 1 CUL0005 Korean Speaking and Writing (Compulsory) Requirement in Fundamental Studies 3-3-0
This course is to understand about the culture of the moderns, can be represented in the speaking and writing skills and a free imagination, and creative and critical reason for celebration. In addition, students can participate in lectures and presentations, a discussion of the end of class for free and a variety of writing and the correct writing of the progress and lessons will be conducted. Subjective reason ability and come in a variety of situations, each student through this class so that you can be a true and accurate communication, speaking and writing skills will be able to exert.
1 1 CUL3011 General Physics & Experiment 1 (Compulsory) Requirement in Fundamental Studies 3-3-2
This course is for the undergraduate students majoring in science- and engineering-fields. This course helps students to understand the basic concepts on mechanics, gravitation, periodic motion and waves, fluid mechanics, thermodynamics and statistical mechanics. It also makes them adept in solving the relevant problems. In each week the course is composed of 3-hour theory lecture and 2-hour lab experiments. Throughout the theory lectures, the students will learn how to understand various phenomena concerning forces and motions based on some fundamental principles and physical laws. The students can broaden their understanding of basic physical concepts by solving homework problems. In the lab experiments, the students get familiar with the scientific analysis methodology by performing the experiments that verify the proposed principles.
1 1 GEN2052 Calculus 1 (Compulsory) Requirement in Fundamental Studies 3-3-0
Calculus is an essential knowledge for natural sciences and engineering. This course present the part of calculus which include taking limits, differentiating and integrating functions including a few transcendental ones and also deals with polar coordinate system, sequences and series. The aim of the course is to teach the students the basic concepts of mathematics and to train them so that they may be able to apply these basic concepts to various situations and may get used to scientific thinking.
1 1 GEN5029 Career Development Ⅰ (Compulsory) Requirement in Fundamental Studies 1-1-0
The ‘seminar for freshman students’ aims to cover the following aspects: etiquettes of the university life; how to use the university facilities; how to improve oneself and provision of ideal ways to utilize the student period. It aims to broaden the 1st year students’ point of view to their majors as well as the university life in general. The lecture will discuss studying skill including taking notes, taking exams, time management and subject enrollment in order to guide students to achieve an ideal studying pattern and further to set up a career path. It will also deal with basic information about diverse study areas, domestic and international social issues and career development.
1 1 GEN6044 Hanyang Community Service (Compulsory) Requirement in Fundamental Studies 1-0-2
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
1 1 SYH0001 HUMAN LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The first step of this program, Human Leadership(HELP1) is a course offered to freshmen students. It is focused on helping them establish characters and values. By enhancing their humanistic sensitivities and knowledge they learn core values and leadership. Students discover themselves through HELP1 and are able to decide what kind of person they want to be. HELP1 helps students establish their values and prepare them to be balanced leaders who can adjust to new environments.
1 1 CHM1005 General Chemistry & Experiment 1 Basic Major 3-2-2
Aim to understand the structures and the properties of matters in micro- and macroscopic view. Introduction, stoichiometry and the mole concept, the behavior of gases, liquids and solids, thermochemistry, electronic structure of atoms and chemical bonding, descriptive chemistry of selected elements and compounds, chemical equilibrium. Lecture, lab, and discussion. Open to Freshmen.
1 1 COE2022 Introduction to Engineering Design Core Major 3-2-2
To provide students with the use of problem-solving skills for solving realistic engineering problems using problem-based learning techniques, including definition of problem, creative problem solving, design of experiments, and optimization. To familiarize students with experience working as a member of an engineering work team, with experience using several modern tools and techniques to solve engineering problems. This course will help you develop the skills necessary to solve the real engineering problems facing engineers today. You will learn underlying principles an master techniques to solve engineering problems.
1 1 CUL0005 Korean Speaking and Writing Compulsory General Studies 3-3-0
Through kiscussion this course ask the following questions: (1) What is free associaton?; (2) How do you compose and make a text? How do you talk about a certain issue?; (3) What is rational and logical thought?; (4) How do you enhance originality and rationlity? The course help students acquire an understanding of text and composition.
1 1 CUL3011 General Physics & Experiment 1 Basic Major 3-2-2
This course is for the undergraduate students majoring in science- and engineering-fields. This course helps students to understand the basic concepts on mechanics, gravitation, periodic motion and waves, fluid mechanics, thermodynamics and statistical mechanics. It also makes them adept in solving the relevant problems. In each week the course is composed of 3-hour theory lecture and 2-hour lab experiments. Throughout the theory lectures, the students will learn how to understand various phenomena concerning forces and motions based on some fundamental principles and physical laws. The students can broaden their understanding of basic physical concepts by solving homework problems. In the lab experiments, the students get familiar with the scientific analysis methodology by performing the experiments that verify the proposed principles.
1 1 GEN2052 Calculus 1 Basic Major 3-3-0
Calculus is an essential knowledge for natural sciences and engineering. This course present the part of calculus which include taking limits, differentiating and integrating functions including a few transcendental ones and also deals with polar coordinate system, sequences and series. The aim of the course is to teach the students the basic concepts of mathematics and to train them so that they may be able to apply these basic concepts to various situations and may get used to scientific thinking.
1 1 GEN5029 Career Development Ⅰ Compulsory General Studies 1-1-0
The ‘seminar for freshman students’ aims to cover the following aspects: etiquettes of the university life; how to use the university facilities; how to improve oneself and provision of ideal ways to utilize the student period. It aims to broaden the 1st year students’ point of view to their majors as well as the university life in general. The lecture will discuss studying skill including taking notes, taking exams, time management and subject enrollment in order to guide students to achieve an ideal studying pattern and further to set up a career path. It will also deal with basic information about diverse study areas, domestic and international social issues and career development.
1 1 SYH0001 HUMAN LEADERSHIP Compulsory General Studies 2-2-0
Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The first step of this program, Hanyang Leadership(HELP1) is the core course for freshmen. This course is composed of 3 parts, "pride in Hanyang", "core values in global society" and "life planning". In "pride in Hanyang" students will review the history, values and vision of Hanyang University. In "core values in global society" students will study 6 core values and case study on the core values of global companys. In "life planning" students will reflect on their history and present and develop the vision and mission statement.
1 2 CHM1002 General Chemistry & Experiment 2 Compulsory General Studies 3-3-2
1 2 COE2003 Statics Elective Major 3-3-0
Statics serves as a review of the basic concepts of mechanics as taught in physics courses for engineers. It will be studied the concepts of force and other vector quantities, forces acting on rigid bodies, moments, and rigid-body equilibrium. It will also be learned distributed force resultants, centroids and body forces, and several topics related to structures, such as beams, trusses, frames under concentrated and distributed forces and couples. Finally, statics introduces work-energy principles as an alternative method for solving statics problems.
1 2 CUL0005 Korean Speaking and Writing Compulsory General Studies 3-4-0
Through kiscussion this course ask the following questions: (1) What is free associaton?; (2) How do you compose and make a text? How do you talk about a certain issue?; (3) What is rational and logical thought?; (4) How do you enhance originality and rationlity? The course help students acquire an understanding of text and composition.
1 2 CUL0012 Advanced Computer Programming Compulsory General Studies 2-2-1
CUL012 ADVANCED COMPUTER PROGRAMMING This class teaches the basic principles and techniques for solving real word problems using computers. Students can develop the ability to design efficient programs by learning the syntax of high level languages, the concepts of and elementary methodology for program design, and implementation techniques. Topics to be covered include the concepts of computer programming, basic programming methodology, data types, operators, expressions, control flow, functions, program structure, pointers and arrays.
1 2 CUL3012 General Physics & Experiment 2 Compulsory General Studies 3-3-2
CUL312 General Physics This course covers the basic principles in mechanics and electromagnetism. Topics include the force and motion of objects, momentum and energy, charge and electric fields, current and magneic fields, and electromagnetic waves.
1 2 GEN2053 Calculus 2 Compulsory General Studies 3-3-0
GEN 253 CALCULUS2 This course is a continuation of CALCULUS1, which aims at preparing the students for their study in their respective major subjects in natural sciences or engineering by equipping them with the knowledge of calculus and some basics of analytic geometry so that they may have the necessary mathematical background and the ability to take logical approaches when they confront the various problems in their study. The course presents the part of calculus and analytic geometry which include linear algebra, matrices and systems of linear equations, functions of several variables, partial differentiation, double integration and vector calculus, which are more advanced subjects then those of CALCULUS1.
1 2 CHM1002 General Chemistry & Experiment 2 Compulsory General Studies 3-3-2
CHM102 General Chemistry and Lab 2 Aim to understand the structures of the molecules and their interaction in various state. Principles and application of chemical equilibrium, coordination chemistry, oxidation-reduction and electrochemistry, kinetics, nuclear chemistry, introduction to organic chemistry. Lecture, lab, and discussion. Open to Freshmen.
1 2 CUL0005 Korean Speaking and Writing Compulsory General Studies 3-4-0
Through discussion this course asks the following questions: (1) What is free associaton?; (2) How do you compose and make a text? How do you talk about a certain issue?; (3) What is rational and logical thought?; (4) How do you enhance originality and rationlity? The course helps students acquire an understanding of text and composition.
1 2 CUL3012 General Physics & Experiment 2 Compulsory General Studies 3-3-2
CUL312 General Physics and Experiment 2 The goal of this course is to make you familiar, at the conceptual and basic problem-solving level, with the physics of mechanics, electricity, magnetism, heat, and waves, optics and modern physics. The basic philosophy of CUL312 can be summarized as follows: The approaches used to achieve these goals involve 1) lectures to interactively discuss and demonstrate the principles, 2) laboratory experiments allowing you to actively explore these principles, and 3) interaction with instructors in discussion sections to provide one-on-one help with concepts and problem solving.
1 2 GEN1031 Computer Programming Compulsory General Studies 2-2-2
GEN131 Principles of Computer Programming This class teaches the basic principles and techniques for solving real word problems using computers. Students can develop the ability to design efficient programs by learning the syntax of high level languages, the concepts of and elementary methodology for program design, and implementation techniques. Topics to be covered include the concepts of computer programming, basic programming methodology, data types, operators, expressions, control flow, functions, program structure, pointers and arrays.
1 2 GEN2053 Calculus 2 Compulsory General Studies 3-3-0
GEN 253 CALCULUS2 This course is a continuation of CALCULUS1, which aims at preparing the students for their study in their respective major subjects in natural sciences or engineering by equipping them with the knowledge of calculus and some basics of analytic geometry so that they may have the necessary mathematical background and the ability to take logical approaches when they confront the various problems in their study. The course presents the part of calculus and analytic geometry which include linear algebra, matrices and systems of linear equations, functions of several variables, partial differentiation, double integration and vector calculus, which are more advanced subjects then those of CALCULUS1.
1 2 GEN5026 Techno-Business Administration Compulsory General Studies 2-2-0
The Techno-Business Administration program basically educates sophomore of engineering in both managerial principles and technological issues in order to deal with the future management environment. The program offers rigorous academic and applied courses along with an extensive international exposure. The program is also committed to educating future business leaders to successfully compete in global markets. The tracks include: Marketing Venture Management eBusiness Accounting, Finance & Business Analysis Strategy & Organization etc.
1 2 CHM1002 General Chemistry & Experiment 2 (Compulsory) Requirement in Fundamental Studies 3-3-2
CHM102 General Chemistry and Lab 2 Aim to understand the structures of the molecules and their interaction in various state. Principles and application of chemical equilibrium, coordination chemistry, oxidation-reduction and electrochemistry, kinetics, nuclear chemistry, introduction to organic chemistry. Lecture, lab, and discussion. Open to Freshmen.
1 2 COE2003 Statics (Compulsory) Requirement in Fundamental Studies 3-3-0
As one of the basic engineering courses, statics deals with the mechanics of particles and rigid bodies which are at rest or moving at a constant velocity. Equilibrium conditions for objects, which are subject to external forces, are studied and are applied to a number of engineering examples. The contents of this course include vector, force and moment, equilibrium conditions for particles and rigid bodies, center of gravity and centroid in 2 or 3 dimensions, moment of inertia, friction, virtual work and energy principles. Students also learn the concepts of statically determinate and indeterminate. For real world applicability, this course take structures such as trusses, beams and cables as examples, and applies the basic principles to them.
1 2 CUL0005 Korean Speaking and Writing (Compulsory) Requirement in Fundamental Studies 3-4-0
Through kiscussion this course ask the following questions: (1) What is free associaton?; (2) How do you compose and make a text? How do you talk about a certain issue?; (3) What is rational and logical thought?; (4) How do you enhance originality and rationlity? The course help students acquire an understanding of text and composition.
1 2 CUL3012 General Physics & Experiment 2 (Compulsory) Requirement in Fundamental Studies 3-3-2
CUL312 General Physics and Experiment 2 The goal of this course is to make you familiar, at the conceptual and basic problem-solving level, with the physics of mechanics, electricity, magnetism, heat, and waves, optics and modern physics. The basic philosophy of CUL312 can be summarized as follows: The approaches used to achieve these goals involve 1) lectures to interactively discuss and demonstrate the principles, 2) laboratory experiments allowing you to actively explore these principles, and 3) interaction with instructors in discussion sections to provide one-on-one help with concepts and problem solving.
1 2 GEN1031 Computer Programming (Compulsory) Requirement in Fundamental Studies 2-2-2
GEN131 Principles of Computer Programming This class teaches the basic principles and techniques for solving real word problems using computers. Students can develop the ability to design efficient programs by learning the syntax of high level languages, the concepts of and elementary methodology for program design, and implementation techniques. Topics to be covered include the concepts of computer programming, basic programming methodology, data types, operators, expressions, control flow, functions, program structure, pointers and arrays.
1 2 GEN2053 Calculus 2 (Compulsory) Requirement in Fundamental Studies 3-3-0
This course is a continuation of CALCULUS1, which aims at preparing the students for their study in their respective major subjects in natural sciences or engineering by equipping them with the knowledge of calculus and some basics of analytic geometry so that they may have the necessary mathematical background and the ability to take logical approaches when they confront the various problems in their study. The course presents the part of calculus and analytic geometry which include linear algebra, matrices and systems of linear equations, functions of several variables, partial differentiation, double integration and vector calculus, which are more advanced subjects then those of CALCULUS1.
1 2 COE1032 INTRODUCTION TO ENGINEERING DESIGN 2 Core Major 2-2-0
To provide students with the use of problem-solving skills for solving realistic engineering problems using problem-based learning techniques, including definition of problem, creative problem solving, design of experiments, and optimization. To familiarize students with experience working as a member of an engineering work team, with experience using several modern tools and techniques to solve engineering problems. This course will help you develop the skills necessary to solve the real engineering problems facing engineers today. You will learn underlying principles and master techniques to solve engineering problems.
1 2 COE2003 Statics Core Major 3-3-0
As one of the basic engineering courses, statics deals with the mechanics of particles and rigid bodies which are at rest or moving at a constant velocity. Equilibrium conditions for objects, which are subject to external forces, are studied and are applied to a number of engineering examples. The contents of this course include vector, force and moment, equilibrium conditions for particles and rigid bodies, center of gravity and centroid in 2 or 3 dimensions, moment of inertia, friction, virtual work and energy principles. Students also learn the concepts of statically determinate and indeterminate. For real world applicability, this course take structures such as trusses, beams and cables as examples, and applies the basic principles to them.
1 2 CUL3012 General Physics & Experiment 2 (Compulsory) Requirement in Fundamental Studies 3-3-2
CUL312 General Physics and Experiment 2 The goal of this course is to make you familiar, at the conceptual and basic problem-solving level, with the physics of mechanics, electricity, magnetism, heat, and waves, optics and modern physics. The basic philosophy of CUL312 can be summarized as follows: The approaches used to achieve these goals involve 1) lectures to interactively discuss and demonstrate the principles, 2) laboratory experiments allowing you to actively explore these principles, and 3) interaction with instructors in discussion sections to provide one-on-one help with concepts and problem solving.
1 2 GEN1031 Computer Programming (Compulsory) Requirement in Fundamental Studies 2-2-2
In this class, students will learn how to solve real-world problems using computers. To do that, students will learn a high-level programming language and will do programming exercises from the basic level to the medium level. The class will cover topics, such as data types, strings, operators, expressions, statements, functions, arrays, pointers, and so on.
1 2 GEN2053 Calculus 2 (Compulsory) Requirement in Fundamental Studies 3-3-0
This course is a continuation of CALCULUS1, which aims at preparing the students for their study in their respective major subjects in natural sciences or engineering by equipping them with the knowledge of calculus and some basics of analytic geometry so that they may have the necessary mathematical background and the ability to take logical approaches when they confront the various problems in their study. The course presents the part of calculus and analytic geometry which include linear algebra, matrices and systems of linear equations, functions of several variables, partial differentiation, double integration and vector calculus, which are more advanced subjects then those of CALCULUS1.
1 2 COE2003 Statics Core Major 3-3-0
As one of the basic engineering courses, statics deals with the mechanics of particles and rigid bodies which are at rest or moving at a constant velocity. Equilibrium conditions for objects, which are subject to external forces, are studied and are applied to a number of engineering examples. The contents of this course include vector, force and moment, equilibrium conditions for particles and rigid bodies, center of gravity and centroid in 2 or 3 dimensions, moment of inertia, friction, virtual work and energy principles. Students also learn the concepts of statically determinate and indeterminate. For real world applicability, this course take structures such as trusses, beams and cables as examples, and applies the basic principles to them.
1 2 CUL3012 General Physics & Experiment 2 (Compulsory) Requirement in Fundamental Studies 3-3-2
The goal of this course is to make you familiar, at the conceptual and basic problem-solving level, with the physics of electricity, magnetism, heat, and waves, optics and modern physics. The basic philosophy of CUL3012 can be summarized as follows: The approaches used to achieve these goals involve 1) lectures to interactively discuss and demonstrate the principles, 2) laboratory experiments allowing you to actively explore these principles, and 3) interaction with instructors in discussion sections to provide one-on-one help with concepts and problem solving.
1 2 GEN1031 Computer Programming (Compulsory) Requirement in Fundamental Studies 2-2-2
In this class, students will learn how to solve real-world problems using computers. To do that, students will learn a high-level programming language and will do programming exercises from the basic level to the medium level. The class will cover topics, such as data types, strings, operators, expressions, statements, functions, arrays, pointers, and so on.
1 2 GEN2053 Calculus 2 (Compulsory) Requirement in Fundamental Studies 3-3-0
This course is a continuation of CALCULUS1, which aims at preparing the students for their study in their respective major subjects in natural sciences or engineering by equipping them with the knowledge of calculus and some basics of analytic geometry so that they may have the necessary mathematical background and the ability to take logical approaches when they confront the various problems in their study. The course presents the part of calculus and analytic geometry which include linear algebra, matrices and systems of linear equations, functions of several variables, partial differentiation, double integration and vector calculus, which are more advanced subjects then those of CALCULUS1.
1 2 COE2003 Statics Core Major 3-3-0
As one of the basic engineering courses, statics deals with the mechanics of particles and rigid bodies which are at rest or moving at a constant velocity. Equilibrium conditions for objects, which are subject to external forces, are studied and are applied to a number of engineering examples. The contents of this course include vector, force and moment, equilibrium conditions for particles and rigid bodies, center of gravity and centroid in 2 or 3 dimensions, moment of inertia, friction, virtual work and energy principles. Students also learn the concepts of statically determinate and indeterminate. For real world applicability, this course take structures such as trusses, beams and cables as examples, and applies the basic principles to them.
1 2 CUL3012 General Physics & Experiment 2 Basic Major 3-2-2
The goal of this course is to make you familiar, at the conceptual and basic problem-solving level, with the physics of electricity, magnetism, heat, and waves, optics and modern physics. The basic philosophy of CUL312 can be summarized as follows: The approaches used to achieve these goals involve 1) lectures to interactively discuss and demonstrate the principles, 2) laboratory experiments allowing you to actively explore these principles, and 3) interaction with instructors in discussion sections to provide one-on-one help with concepts and problem solving.
1 2 DME1001 Creative Design Seminar Core Major 1-1-0
1 2 DME2061 Humanities and Arts for Mechanical Engineers Extended Major 1-1-0
Future industry requires human-based thinking, which can be accomplished by the combinations of specialty, creativity, and interdisciplinary knowledge. In order to meet the customers’ needs, mechanical engineers need to develop human-based thinking which requires the better understanding of humanities and arts. Humanities include philosophy, literature, history, psychology, sociology, women’s studies, science of religion, and aesthetics. Arts include fine arts, applied arts, and film studies. Through this class, students will develop the customer-oriented perspectives, and understand the future product developments.
1 2 GEN1031 Creative Computing for Engineers Compulsory General Studies 3-2-2
In this class, students will learn how to solve real-world problems using computers. To do that, students will learn a high-level programming language and will do programming exercises from the basic level to the medium level. The class will cover topics, such as data types, strings, operators, expressions, statements, functions, arrays, pointers, and so on.
1 2 GEN2053 Calculus 2 Basic Major 3-3-0
This course is a continuation of CALCULUS1, which aims at preparing the students for their study in their respective major subjects in natural sciences or engineering by equipping them with the knowledge of calculus and some basics of analytic geometry so that they may have the necessary mathematical background and the ability to take logical approaches when they confront the various problems in their study. The course presents the part of calculus and analytic geometry which include linear algebra, matrices and systems of linear equations, functions of several variables, partial differentiation, double integration and vector calculus, which are more advanced subjects then those of CALCULUS1.
1 2 GEN4091 Philosophical Understanding of Science and Technology Compulsory General Studies 3-3-0
This course aims to cultivate among students the comprehensive understanding of science and technology in modern society, employing philosophical methods and concepts. To do this, the course offers a survey of some important theoretical results recently obtained in science and technology studies. We will carefully examime a number of concrete case-studies, ranging from the electrification of America, quantum revolution to the introduction of western science to traditional Korea. We will then discuss the intrinsic nature of modern science and technology as well as its socio-cultural aspects in the context of modern society. Students who take the course shall appreciate how modern science and technology from the nineteenth century has come to manifest a number of unique characteristics, which can be clearly distinguished from the science and technology of even, the eighteenth century. We will discuss in the class the significance of this difference. The course will also highlights the importance of dialogue between experts with different background and encourage more interactions between humanities and natural sciences, so that we can make well-informed and reasonable decisions concerning complicated issues which are so common in our multi-layered society.
2 1 COE1010 Practical Engineering Research Initiative 1 Elective Major 1-0-2
In this course, students can participate in research projects of professors. Student who chose one projects among others proposed by teacher makes his/her own specified proposal for the study, then do the research during the term. Students will present his research result at the end of the term. The course stresses creative thinking and research exprience. The course opens to shopomores to Juniors and can be taken no more than 4 terms. Achievement of the class is evaluated with Pass or Fail.
2 1 COE2004 Dynamics Compulsory Major 3-3-0
In this course, fundamental terminologies and concepts in dynamics are first explained. How to describe the motions of a particle and a rigid body is the next subject of lecture. To describe the motion, vector notations are employed along with coordinate systems. Then a method of drawing a free body diagram is studied. Basing on the diagram, equations of motions are derived. Force as well as motion information is obtained from the equations of motion. Two integral principles are introduced where the concepts of work, energy, impulse, and momentum are employed. Advantages of using integral principles are discussed. Finally gyroscopic effects that occur in spatial rotational motions of rigid body systems are discussed.
2 1 COE3051 Engineering Mathematics 1 Compulsory General Studies 3-3-0
In this subject, we learn ordinary differential equation(O.D.E.), linear differential equation(L.D.E.), series, series solution in differential equations and Laplace transportation systematically based on differential and integral calculus (fundamental prerequisite). Moreover, we improve ability to make these basic concepts and principles applicable. The aim of this course is to allow students to interpret engineering phenomenon from their major field using mathematical knowledge. Engineering Mathematics course is mandatory course. Exams and grades are managed by the engineering mathematics committee, comprising all professors.
2 1 DME2001 Strength of Materials 1 Compulsory Major 3-3-0
In order to guarantee the safety of machine structures, calculation method for the deformation and stresses of structure members are studied. Structure modeling techniques, the definition of stresses and strains of solids, Hookes law, the mechanics of axial and torsion members, internal force diagrams of beams, bending and shear stress formula of beams etc, are studied in this course.
2 1 DME2008 Computer-Aided Geometric Modeling Elective Major 3-2-2
DME208 Computer Aided Drawing This course introduces the techniques used to model mechanical parts. It covers wireframe, surface and solid modeling techniques. About ten different mechanical parts will be handed out to students who will then exercise state-of-the-art input techniques provided by the commercial CAD system. Prerequisites: GEN193
2 1 DME2055 Mechanical Engineering Materials Elective Major 3-3-0
DME 255 Engineering Materials Provides fundamental knoeledge of engineering materials in manufacturing and processing, and in a selection design and construction of components or structures. In this course, knowledge of materials science together with be studied. Topics: elements of crystalline structures, strengthening mechanisms, heat treatments, ferrous alloys, nonferrous alloys, composite materials, advanced ceramics and their applications.
2 1 ELE3053 Electric Engineering Elective Major 3-3-0
ELE353 Electrical Engineering This course introduces the fundamentals of electric circuits, and the the methodologies of circuit analysis such as KVL, KCL, mesh and Nodal analysis, superposition,and the Norton and Thevenin theorems. It also covers the analysis of the AC network. AC power and dynamic responses of AC circuits will be covered. Frequency response and transient analysis will also be discussed.
2 1 COE1010 Practical Engineering Research Initiative 1 Elective Major 1-0-2
n this course, students can participate in research projects of professors. Student who chose one projects among others proposed by teacher makes his/her own specified proposal for the study, then do the research during the term. Students will present his research result at the end of the term. The course stresses creative thinking and research exprience. The course opens to shopomores to Juniors and can be taken no more than 4 terms. Achievement of the class is evaluated with Pass or Fail.
2 1 COE3051 Engineering Mathematics 1 Compulsory General Studies 3-3-0
In this subject, we learn ordinary differential equation(O.D.E.), linear differential equation(L.D.E.), series, series solution in differential equations and Laplace transportation systematically based on differential and integral calculus (fundamental prerequisite). Moreover, we improve ability to make these basic concepts and principles applicable. The aim of this course is to allow students to interpret engineering phenomenon from their major field using mathematical knowledge. Engineering Mathematics course is mandatory course. Exams and grades are managed by the engineering mathematics committee, comprising all professors.
2 1 DME2001 Strength of Materials 1 Compulsory Major 3-3-0
In order to guarantee the safety of machine structures, calculation method for the deformation and stresses of structure members are studied. Structure modeling techniques, the definition of stresses and strains of solids, Hookes law, the mechanics of axial and torsion members, internal force diagrams of beams, bending and shear stress formula of beams etc, are studied in this course.
2 1 DME2008 Computer-Aided Geometric Modeling Elective Major 3-2-2
DME208 Computer Aided Drawing This course introduces the techniques used to model mechanical parts. It covers wireframe, surface and solid modeling techniques. About ten different mechanical parts will be handed out to students who will then exercise state-of-the-art input techniques provided by the commercial CAD system. Prerequisites: GEN193
2 1 DME2055 Mechanical Engineering Materials Elective Major 3-3-0
DME 255 Engineering Materials Provides fundamental knoeledge of engineering materials in manufacturing and processing, and in a selection design and construction of components or structures. In this course, knowledge of materials science together with be studied. Topics: elements of crystalline structures, strengthening mechanisms, heat treatments, ferrous alloys, nonferrous alloys, composite materials, advanced ceramics and their applications.
2 1 ELE3053 Electric Engineering Elective Major 3-3-0
ELE353 Electrical Engineering This course introduces the fundamentals of electric circuits, and the the methodologies of circuit analysis such as KVL, KCL, mesh and Nodal analysis, superposition,and the Norton and Thevenin theorems. It also covers the analysis of the AC network. AC power and dynamic responses of AC circuits will be covered. Frequency response and transient analysis will also be discussed.
2 1 MAT2017 Probability & Statistics Compulsory General Studies 3-3-0
MAT217 PROBABILITY & STATISTICS This subject is designed to lead students to understand basic functions such as the probability density function and the cumulative distribution function, and basic probability distribution functions such as binomial, normal, Poisson, and gamma distributions. Sample treatment, maximum likelihood method, point and interval estimations, hypothesis test, and goodness-of-fit test are treated as well. This provides the fundamentals of applying probability and statistics to engineering problems.
2 1 COE3051 Engineering Mathematics 1 (Compulsory) Requirement in Fundamental Studies 3-3-0
In this subject, we learn ordinary differential equation(O.D.E.), linear differential equation(L.D.E.), series, series solution in differential equations and Laplace transportation systematically based on differential and integral calculus (fundamental prerequisite). Moreover, we improve ability to make these basic concepts and principles applicable. The aim of this course is to allow students to interpret engineering phenomenon from their major field using mathematical knowledge. Engineering Mathematics course is mandatory course. Exams and grades are managed by the engineering mathematics committee, comprising all professors.
2 1 DME2008 Computer-Aided Geometric Modeling Core Major 3-2-2
This course introduces the basic mathematics and algorithms relevant to CAD(Computer-Aided Design). In addition it helps students to understand the state-of-the-art of the CAD technology and its potential for mechanical design. The course focuses on wire-frame, surface and solid models and their data structures. Also it covers descriptive geometry for students to understand the 2D drawings. The lab classes using CAD systems begin with basic 2D drawing techniques which are later used as 3D modeling input schemes. Feature-based and parametric modeling techniques using geometric constraints are mainly practiced during the lab classes for modeling mechanical parts. A commercial CAD system, CATIA, is available in the lab. The course will be useful for the students interested in mechanical design, computer graphic, 3D geometric modeling and/or animation.
2 1 DME2053 Mechanics of Materials Core Major 3-3-0
In order to guarantee the safety of machine structures,calculation methods for the deformations and stresses of structure members are studied. Structure modeling technique, the definition of stresses and strains of solids,constitutive relations,the mechanics of axial and torsion members, the internal force diagrams, the bending and the shear stress formulae of beams and more are studied in this course.
2 1 DME2055 Mechanical Engineering Materials (Compulsory) Requirement in Fundamental Studies 3-3-0
DME 255 Engineering Materials Provides fundamental knoeledge of engineering materials in manufacturing and processing, and in a selection design and construction of components or structures. In this course, knowledge of materials science together with be studied. Topics: elements of crystalline structures, strengthening mechanisms, heat treatments, ferrous alloys, nonferrous alloys, composite materials, advanced ceramics and their applications.
2 1 ELE3053 Electric Engineering Core Major 3-3-0
ELE353 Electrical Engineering This course introduces the fundamentals of electric circuits, and the the methodologies of circuit analysis such as KVL, KCL, mesh and Nodal analysis, superposition,and the Norton and Thevenin theorems. It also covers the analysis of the AC network. AC power and dynamic responses of AC circuits will be covered. Frequency response and transient analysis will also be discussed.
2 1 GEN3058 Engineering Economy Core Major 3-3-0
GEN358 ENGINEERING ECONOMY This subject is designed to introduce students to the concepts and methods necessary for estimating values of systems, products, and services in relation to the cost. This subject leads students both to understand importance of the economic point of view of engineering also to get proficient in valuating the economical efficiency of engineering proposal.
2 1 MAT2017 Probability & Statistics Core Major 3-3-0
MAT217 PROBABILITY & STATISTICS This subject is designed to lead students to understand basic functions such as the probability density function and the cumulative distribution function, and basic probability distribution functions such as binomial, normal, Poisson, and gamma distributions. Sample treatment, maximum likelihood method, point and interval estimations, hypothesis test, and goodness-of-fit test are treated as well. This provides the fundamentals of applying probability and statistics to engineering problems.
2 1 SYH0002 GLOBAL LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The second step of this program, Hanyang Leadership(HELP2) is the core course for Sophomores. In the 21st century, we are moving into a global soceity where all countries are interconnected. Everything is changing at the speed of light. Competition is increasing. Digital Convergence is occurring. Global leaders are the key to success for all organizations. In a global soceity, you can prepare for your future through HELP2. The purpose of HELP is to prepare students to be global leaders for the next generation. HELP2 teaches students: Global Leadership, Global Paradigm, Global Literacy, Global Manners, and Global Mindset. Hanyang university students will be global leaders through HELP2.
2 1 COE2004 Dynamics Core Major 3-3-0
In this course, fundamental terminologies and concepts in dynamics are first explained. How to describe the motions of a particle and a rigid body is the next subject of lecture. To describe the motion, vector notations are employed along with coordinate systems. Then a method of drawing a free body diagram is studied. Basing on the diagram, equations of motions are derived. Force as well as motion information is obtained from the equations of motion. Two integral principles are introduced where the concepts of work, energy, impulse, and momentum are employed. Advantages of using integral principles are discussed. Finally gyroscopic effects that occur in spatial rotational motions of rigid body systems are discussed.
2 1 COE3051 Engineering Mathematics 1 (Compulsory) Requirement in Fundamental Studies 3-3-0
In this subject, we learn ordinary differential equation(O.D.E.), linear differential equation(L.D.E.), series, series solution in differential equations and Laplace transformation systematically based on differential and integral calculus (fundamental prerequisite). Moreover, we improve ability to make these basic concepts and principles applicable.
2 1 DME2001 Strength of Materials 1 Core Major 3-3-0
In order to guarantee the safety of machine structures, calculation method for the deformation and stresses of structure members are studied. Structure modeling techniques, the definition of stresses and strains of solids, Hookes law, the mechanics of axial and torsion members, internal force diagrams of beams, bending and shear stress formula of beams etc, are studied in this course.
2 1 DME2008 Computer-Aided Geometric Modeling Core Major 3-2-2
This course introduces the basic mathematics and algorithms relevant to CAD(Computer-Aided Design). In addition it helps students to understand the state-of-the-art of the CAD technology and its potential for mechanical design. The course focuses on wire-frame, surface and solid models and their data structures. Also it covers descriptive geometry for students to understand the 2D drawings. The lab classes using CAD systems begin with basic 2D drawing techniques which are later used as 3D modeling input schemes. Feature-based and parametric modeling techniques using geometric constraints are mainly practiced during the lab classes for modeling mechanical parts. A commercial CAD system, CATIA, is available in the lab. The course will be useful for the students interested in mechanical design, computer graphic, 3D geometric modeling and/or animation.
2 1 GEN4091 Philosophical Understanding of Science and Technology (Compulsory) Requirement in Fundamental Studies 2-2-0
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
2 1 GEN6032 PROFESSIONAL ACADEMIC ENGLISH (Compulsory) Requirement in Fundamental Studies 3-4-0
The Professional Academic English for students at Hanyang University focuses on the development of the oral and written communication skills, which are required in the globalized world community. The course aims to help students develop the competencies that are required in their future studies and career: professional knowledge, interpersonal and communicative competences. The course requires the students to develop creative problem solving skills. For this, the students perform various tasks by investigating and analyzing engineering topics as well as developing solutions. The students’ communication and negotiation skills are systematically supported by language skill development such as learning academic forms and structures of the language that are used in formal oral presentations and essays. The expected course outcome is that students are able to write academic reports, participate in discussions and make oral presentations in English on their major topics. Throughout the course, the students are encouraged to explore various major-related topics, to conduct systematic problem analyses, and to collaborate for creative problem solutions. Classroom activities mainly focus on the oral presentation and writing skills, and the preparatory activities of the essay writing. The course requires the students to make three oral presentations and write three essays in English on their major-related topics. Students are required to make a portfolio of their work, to be submitted and assessed. This will be discussed in class.
2 1 MAT2017 Probability & Statistics (Compulsory) Requirement in Fundamental Studies 3-3-0
This subject is designed to lead students to understand basic functions such as the probability density function and the cumulative distribution function, and basic probability distribution functions such as binomial, normal, Poisson, and gamma distributions. Sample treatment, maximum likelihood method, point and interval estimations, hypothesis test, and goodness-of-fit test are treated as well. This provides the fundamentals of applying probability and statistics to engineering problems.
2 1 COE2004 Dynamics Core Major 3-3-0
In this course, fundamental terminologies and concepts in dynamics are first explained. How to describe the motions of a particle and a rigid body is the next subject of lecture. To describe the motion, vector notations are employed along with coordinate systems. Then a method of drawing a free body diagram is studied. Basing on the diagram, equations of motions are derived. Force as well as motion information is obtained from the equations of motion. Two integral principles are introduced where the concepts of work, energy, impulse, and momentum are employed. Advantages of using integral principles are discussed. Finally gyroscopic effects that occur in spatial rotational motions of rigid body systems are discussed.
2 1 COE3051 Engineering Mathematics 1 (Compulsory) Requirement in Fundamental Studies 3-3-0
In this subject, we learn ordinary differential equation(O.D.E.), linear differential equation(L.D.E.), series, series solution in differential equations and Laplace transformation systematically based on differential and integral calculus (fundamental prerequisite). Moreover, we improve ability to make these basic concepts and principles applicable.
2 1 DME2001 Strength of Materials 1 Core Major 3-3-0
In order to guarantee the safety of machine structures, calculation method for the deformation and stresses of structure members are studied. Structure modeling techniques, the definition of stresses and strains of solids, Hookes law, the mechanics of axial and torsion members, internal force diagrams of beams, bending and shear stress formula of beams etc, are studied in this course.
2 1 DME2060 Linear Algebra and its applications Extended Major 2-1-2
A wide range of contemporarly engineering problems are solved by compututational methods which are based on linear algebra. This linear algebra course introduces the first step towards the mathematical foundations and the computational solution procedures for linear systems. Therefore the understanding of the linear algebra is essential for engineers. In this course, students learn some fundamental concepts such as the solution procedures of linear systems, vector, matirx, linear independence, basis, eigenvalue, and eigenvectors.
2 1 DME2061 Humanities and Arts for Mechanical Engineers Extended Major 1-1-0
Future industry requires human-based thinking, which can be accomplished by the combinations of specialty, creativity, and interdisciplinary knowledge. In order to meet the customers’ needs, mechanical engineers need to develop human-based thinking which requires the better understanding of humanities and arts. Humanities include philosophy, literature, history, psychology, sociology, women’s studies, science of religion, and aesthetics. Arts include fine arts, applied arts, and film studies. Through this class, students will develop the customer-oriented perspectives, and understand the future product developments.
2 1 ELE3053 Electric Engineering Core Major 3-3-0
This course introduces the fundamentals of electric circuits, and the the methodologies of circuit analysis such as KVL, KCL, mesh and Nodal analysis, superposition,and the Norton and Thevenin theorems. It also covers the analysis of the AC network. AC power and dynamic responses of AC circuits will be covered. Frequency response and transient analysis will also be discussed.
2 1 GEN4091 Philosophical Understanding of Science and Technology (Compulsory) Requirement in Fundamental Studies 3-3-0
This course aims to survey some important theoretical results recently obtained in science and technology studies. We will carefully examine a number of concrete case studies studied by scholars from philosophy of science and technology, sociology of science and technology, and history of science and technology. The students taking the course shall learn various aspects of modern science and technology in the context of modern society. They shall appreciate how modern science and technology from the nineteenth century has come to manifest a number of its unique features, which can be clearly distinguished from the science and technology of even, the eighteenth century. We will discuss in the class the significance of differences for proper understanding of science and technology of our time. The course will also encourage more interactions between humanities and natural sciences so that we can make well-informed and reasonable decisions concerning complicated issues which are so common in our multi-layered society. The target audience of the course is students studying natural sciences and/or engineering. The contents of the course will be stylized each term, considering the student';s needs and backgrounds.
2 1 GEN6032 PROFESSIONAL ACADEMIC ENGLISH (Compulsory) Requirement in Fundamental Studies 3-3-0
The Professional Academic English for students at Hanyang University focuses on the development of the oral and written communication skills, which are required in the globalized world community. The course aims to help students develop the competencies that are required in their future studies and career: professional knowledge, interpersonal and communicative competences. The course requires the students to develop creative problem solving skills. For this, the students perform various tasks by investigating and analyzing engineering topics as well as developing solutions. The students’ communication and negotiation skills are systematically supported by language skill development such as learning academic forms and structures of the language that are used in formal oral presentations and essays. The expected course outcome is that students are able to write academic reports, participate in discussions and make oral presentations in English on their major topics. Throughout the course, the students are encouraged to explore various major-related topics, to conduct systematic problem analyses, and to collaborate for creative problem solutions. Classroom activities mainly focus on the oral presentation and writing skills, and the preparatory activities of the essay writing. The course requires the students to make three oral presentations and write three essays in English on their major-related topics. Students are required to make a portfolio of their work, to be submitted and assessed. This will be discussed in class. Professional Academic English (PAE) is a required course for all HYU students that develops students’ academic presentation and writing skills using major-related content. Instruction will focus on the concepts and strategies needed in order to both organize and deliver a presentation, along with informal and formal opportunities to practice them. Students will also learn to improve their academic writing through assignments that require the dem
2 1 MAT2017 Probability & Statistics (Compulsory) Requirement in Fundamental Studies 3-3-0
This subject is designed to lead students to understand basic functions such as the probability density function and the cumulative distribution function, and basic probability distribution functions such as binomial, normal, Poisson, and gamma distributions. Sample treatment, maximum likelihood method, point and interval estimations, hypothesis test, and goodness-of-fit test are treated as well. This provides the fundamentals of applying probability and statistics to engineering problems.
2 1 COE2004 Dynamics Core Major 3-3-0
In this course, fundamental terminologies and concepts in dynamics are first explained. How to describe the motions of a particle and a rigid body is the next subject of lecture. To describe the motion, vector notations are employed along with coordinate systems. Then a method of drawing a free body diagram is studied. Basing on the diagram, equations of motions are derived. Force as well as motion information is obtained from the equations of motion. Two integral principles are introduced where the concepts of work, energy, impulse, and momentum are employed. Advantages of using integral principles are discussed. Finally gyroscopic effects that occur in spatial rotational motions of rigid body systems are discussed.
2 1 COE3051 Engineering Mathematics 1 Basic Major 3-3-0
In this subject, we learn ordinary differential equation(O.D.E.), linear differential equation(L.D.E.), series, series solution in differential equations and Laplace transformation systematically based on differential and integral calculus (fundamental prerequisite). Moreover, we improve ability to make these basic concepts and principles applicable.
2 1 DME2001 Strength of Materials 1 Core Major 3-3-0
In order to guarantee the safety of machine structures, calculation method for the deformation and stresses of structure members are studied. Structure modeling techniques, the definition of stresses and strains of solids, Hookes law, the mechanics of axial and torsion members, internal force diagrams of beams, bending and shear stress formula of beams etc, are studied in this course.
2 1 DME2008 Computer-Aided Geometric Modeling Core Major 3-2-2
This course introduces the basic mathematics and algorithms relevant to CAD(Computer-Aided Design). In addition it helps students to understand the state-of-the-art of the CAD technology and its potential for mechanical design. The course focuses on wire-frame, surface and solid models and their data structures. Also it covers descriptive geometry for students to understand the 2D drawings. The lab classes using CAD systems begin with basic 2D drawing techniques which are later used as 3D modeling input schemes. Feature-based and parametric modeling techniques using geometric constraints are mainly practiced during the lab classes for modeling mechanical parts. A commercial CAD system, CATIA, is available in the lab. The course will be useful for the students interested in mechanical design, computer graphic, 3D geometric modeling and/or animation.
2 1 ELE3053 Electric Engineering Extended Major 3-3-0
This course introduces the fundamentals of electric circuits, and the the methodologies of circuit analysis such as KVL, KCL, mesh and Nodal analysis, superposition,and the Norton and Thevenin theorems. It also covers the analysis of the AC network. AC power and dynamic responses of AC circuits will be covered. Frequency response and transient analysis will also be discussed.
2 1 GEN6032 PROFESSIONAL ACADEMIC ENGLISH Compulsory General Studies 3-3-0
The Professional Academic English for students at Hanyang University focuses on the development of the oral and written communication skills, which are required in the globalized world community. The course aims to help students develop the competencies that are required in their future studies and career: professional knowledge, interpersonal and communicative competences. The course requires the students to develop creative problem solving skills. For this, the students perform various tasks by investigating and analyzing engineering topics as well as developing solutions. The students’ communication and negotiation skills are systematically supported by language skill development such as learning academic forms and structures of the language that are used in formal oral presentations and essays. The expected course outcome is that students are able to write academic reports, participate in discussions and make oral presentations in English on their major topics. Throughout the course, the students are encouraged to explore various major-related topics, to conduct systematic problem analyses, and to collaborate for creative problem solutions. Classroom activities mainly focus on the oral presentation and writing skills, and the preparatory activities of the essay writing. The course requires the students to make three oral presentations and write three essays in English on their major-related topics. Students are required to make a portfolio of their work, to be submitted and assessed. This will be discussed in class.
2 1 MEE4011 Measurement Engineering Extended Major 3-3-0
General construction of measurement systems and their characteristics; principles of typical mechanical measurement and their applications: sensitivity and resolution of measurement systems; data analysis and reliability evaluation; characteristics of typical sensors for mechanical measurement: measurement of length, strain, stress, force, torque, flow, velocity, temperature, vibration, sound and surface roughness, and several experimental demonstrations.
2 2 COE1011 Practical Engineering Research Initiative 2 Elective Major 1-0-2
In this course, students can participate in research projects of professors. Student who chose one projects among others proposed by teacher makes his/her own specified proposal for the study, then do the research during the term. Students will present his research result at the end of the term. The course stresses creative thinking and research exprience. The course opens to shopomores to Juniors and can be taken no more than 4 terms. Achievement of the class is evaluated with Pass or Fail.
2 2 COE3052 Engineering Mathematics 2 Compulsory General Studies 3-3-0
In this subject, we learn complex functions, complex analysis fuctions, fundamental complex functions, Conformal mapping, linear fractional transformation, line integral in the complex plane, Cauchy`s integral theorem and lformula,, derivatives in analysis function, power seriesm Taylor`s series, Laurent`s series, residue integration, ideal integration, matrix multiplication systematically. This subect is a prerequisite for understanding special subjects and helps us improve mathematical and scientific way of thinking.
2 2 DME2002 Strength of Materials 2 Elective Major 3-3-0
After having studied the Mechanics of Solids 1, this course has to be taken. Stress and strain transformation formula, failure theories, beam design methods, the various calculation methods of beam deflections, solving methods of statically indeterminate problems, column buckling and stability design method, the limit design method and the various energy methods are studied.
2 2 ENE3011 Microelectronic Circuits Elective Major 3-3-0
In this course, the behavior of transistor amplifier configuration is covered. Included topics are low-frequency circuit performance, biasing process of BJT and FET, small signal models, analysis of differential amplifier OP Amp. and applications. Also topics on frequency response of the amplifier and dominant-pole approximation are discussed.
2 2 MEE3001 Thermodynamics 1 Compulsory Major 3-3-0
MEE301 Thermodynamics 1 Introduction to the concept of energy and transformation of energy: the first and second law of thermodynamics, thermodynamic properties, conservation of energy for closed and open systems. Entropy and the second law of thermodynamics; the increase of entropy principle, entropy change of ideal gas, pure substance, and adiabatic efficiency of steady-flow devices. The second law analysis of an engineering system: availability, reversible work and irresponsibility, second law analysis of steady flow and unsteady flow systems.
2 2 MEE4011 Measurement Engineering Elective Major 3-2-2
MEE411 Measurement Engineering General construction of measurement systems and their characteristics; principles of typical mechanical measurement and their applications: sensitivity and resolution of measurement systems; data analysis and reliability evaluation; characteristics of typical sensors for mechanical measurement: measurement of length, strain, stress, force, torque, flow, velocity, temperature, vibration, sound and surface roughness, and several experimental demonstrations.
2 2 PME2001 Manufacturing Processes Compulsory Major 3-2-2
PME201 Manufacturing Processes Emphasis on the fundamentals of structure, production and properties of manufacturing materials, material selection and treatment. Introduction to principal manufacturing processes and equipment, such as casting and injection molding, forming and shaping, machining, welding, and fabrication; materials and manufacturing processes' interrelationships; Introduction to computer-aided design (CAD), NC programming, computer-aided manufacturing (CAM), process planning, rapid prototyping, reverse design, design for manufacturing (DFM) and flexible manufacturing systems (FMS). Classroom and laboratory practice included. 3credits, 2 class and 2 practice hours.
2 2 COE1011 Practical Engineering Research Initiative 2 Elective Major 1-0-2
In this course, students can participate in research projects of professors. Student who chose one projects among others proposed by teacher makes his/her own specified proposal for the study, then do the research during the term. Students will present his research result at the end of the term. The course stresses creative thinking and research exprience. The course opens to shopomores to Juniors and can be taken no more than 4 terms. Achievement of the class is evaluated with Pass or Fail.
2 2 COE2004 Dynamics Compulsory Major 3-3-0
In this course, fundamental terminologies and concepts in dynamics are first explained. How to describe the motions of a particle and a rigid body is the next subject of lecture. To describe the motion, vector notations are employed along with coordinate systems. Then a method of drawing a free body diagram is studied. Basing on the diagram, equations of motions are derived. Force as well as motion information is obtained from the equations of motion. Two integral principles are introduced where the concepts of work, energy, impulse, and momentum are employed. Advantages of using integral principles are discussed. Finally gyroscopic effects that occur in spatial rotational motions of rigid body systems are discussed.
2 2 COE3052 Engineering Mathematics 2 Compulsory General Studies 3-3-0
In this subject, we learn complex complex analysis functions, fundamental complex functions, Conformal mapping, linear fractional transformation, line integral in the complex plane, Cauchy`s integral theorem and formula, derivatives in analysis function, power series, Taylor`s series, Laurent`s series, residue integration, ideal integration, matrix multiplication systematically. This subect is a prerequisite for understanding special subjects and helps us improve mathematical and scientific way of thinking.
2 2 DME2002 Strength of Materials 2 Elective Major 3-3-0
After having studied the Mechanics of Solids 1, this course has to be taken. Stress and strain transformation formula, failure theories, beam design methods, the various calculation methods of beam deflections, solving methods of statically indeterminate problems, column buckling and stability design method, the limit design method and the various energy methods are studied.
2 2 ENE3063 Electronic Engineering Elective Major 3-3-0
ELE363 Electronic Engineering This course examines properties of semiconductors, characteristics of diodes, bipolar juction transistors, field effect transistors and basic digital elements. The class topics include fundamentals and applications of op-amp circuits and digital systems. It also covers their applications to many industrial electronic systems and kinds of equipments. Practical design techniques for electronic circuits and measurement system will be discussed.
2 2 MEE3001 Thermodynamics 1 Compulsory Major 3-3-0
MEE301 Thermodynamics 1 Introduction to the concept of energy and transformation of energy: the first and second law of thermodynamics, thermodynamic properties, conservation of energy for closed and open systems. Entropy and the second law of thermodynamics; the increase of entropy principle, entropy change of ideal gas, pure substance, and adiabatic efficiency of steady-flow devices. The second law analysis of an engineering system: availability, reversible work and irresponsibility, second law analysis of steady flow and unsteady flow systems.
2 2 MEE4011 Measurement Engineering Elective Major 3-2-2
MEE411 Measurement Engineering General construction of measurement systems and their characteristics; principles of typical mechanical measurement and their applications: sensitivity and resolution of measurement systems; data analysis and reliability evaluation; characteristics of typical sensors for mechanical measurement: measurement of length, strain, stress, force, torque, flow, velocity, temperature, vibration, sound and surface roughness, and several experimental demonstrations.
2 2 PME2001 Manufacturing Processes Elective Major 3-3-0
The course of manufacturing processes is for students to learn an application engineering processes for produce a semi-product or final product using the mechanics learned in junior level courses. This class consists of four main themes, casting process, bulk forming processes, sheet metal forming process, and welding process. Bulk forming processes include forging, rolling, drawing, and extrusion. At first, all these processes will be taught theoretically, and then movie films are provided for students for practical concepts. During this semester students will have an opportunity to attend exhibition show. For practical experiences, experiments will be performed in this course. Students exercise by themselves. Furthermore computer simulation such sysweld software will be taught for students. Therefore, this course is useful for application using the theoretical courses that are learned in class room and good chance to be industry in future for students.
2 2 COE2004 Dynamics Core Major 3-3-0
In this course, fundamental terminologies and concepts in dynamics are first explained. How to describe the motions of a particle and a rigid body is the next subject of lecture. To describe the motion, vector notations are employed along with coordinate systems. Then a method of drawing a free body diagram is studied. Basing on the diagram, equations of motions are derived. Force as well as motion information is obtained from the equations of motion. Two integral principles are introduced where the concepts of work, energy, impulse, and momentum are employed. Advantages of using integral principles are discussed. Finally gyroscopic effects that occur in spatial rotational motions of rigid body systems are discussed.
2 2 COE3052 Engineering Mathematics 2 (Compulsory) Requirement in Fundamental Studies 3-3-0
In this subject, we learn complex functions, complex analysis fuctions, fundamental complex functions, Conformal mapping, linear fractional transformation, line integral in the complex plane, Cauchy`s integral theorem and lformula,, derivatives in analysis function, power seriesm Taylor`s series, Laurent`s series, residue integration, ideal integration, matrix multiplication systematically. This subect is a prerequisite for understanding special subjects and helps us improve mathematical and scientific way of thinking.
2 2 DME2009 APPLIED STRENTH OF MATERIALS Core Major 3-3-0
After having studied 'Mechanics of Materials', the stress and strain transformation formulae, failure theories, beam strength design methods, various calculation methods of beam deflection, solving methods of statically indeterminate problems, column buckling and stability design methods,the limit design method and various energy methods are studied in this course.
2 2 DME2058 INTRODUCTION TO ENGINEERING DESIGN Core Major 3-3-0
Overall Course Objective: To provide students with the use of problem-solving skills for solving realistic engineering problems using problem-based learning techniques, including definition of problem, creative problem solving, design of experiments, and optimization. To familiarize students with experience working as a member of an engineering work team, with experience using several modern tools and techniques to solve engineering problems. Course Summary: This course will help you develop the skills necessary to solve the real engineering problems facing engineers today. You will learn underlying principles and master techniques to solve engineering problems. You will learn techniques for definition of engineering problem and transformation into design problem, creative problem solving methods to create new ideas, design of experiments to plan experiments for maximum information with minimal experiments, and optimization. The tools you will use during the course include MATLAB and Excel.
2 2 ENE3063 Electronic Engineering Core Major 3-3-0
ELE363 Electronic Engineering This course examines properties of semiconductors, characteristics of diodes, bipolar juction transistors, field effect transistors and basic digital elements. The class topics include fundamentals and applications of op-amp circuits and digital systems. It also covers their applications to many industrial electronic systems and kinds of equipments. Practical design techniques for electronic circuits and measurement system will be discussed.
2 2 MEE3012 Thermodynamics Core Major 3-3-0
MEE312 Thermodynamics Introduction to the concept of energy and transformation of energy: the first and second law of thermodynamics, pure substance, thermodynamic properties, conservation of energy for closed and open systems. Entropy and the second law of thermodynamics; the increase of entropy principle, entropy change of ideal gas, and adiabatic efficiency of steady-flow devices. The second law analysis of an engineering system: availability, reversible work and irresponsibility, second law analysis of steady flow and unsteady flow systems.
2 2 COE3052 Engineering Mathematics 2 (Compulsory) Requirement in Fundamental Studies 3-3-0
In this subject, we learn complex functions, complex analysis fuctions, fundamental complex functions, Conformal mapping, linear fractional transformation, line integral in the complex plane, Cauchy's integral theorem and integral formula, derivatives in analysis function, power seriesm Taylor's series, Laurent's series, residue integration, ideal integration, matrix multiplication systematically. This subject is a prerequisite for understanding special subjects and helps us improve mathematical and scientific way of thinking.
2 2 DME2002 Strength of Materials 2 Core Major 3-3-0
After having studied the Mechanics of Materials 1, this course has to be taken. Stress and strain transformation formula, failure theories, beam design methods, the various calculation methods of beam deflections, solving methods of statically indeterminate problems, column buckling and stability design method, the limit design method and the various energy methods are studied.
2 2 DME2010 INTRODUCTION TO MECHANICAL DESIGN Core Major 3-3-0
Overall Course Objective: To provide students with the use of problem-solving skills for solving realistic mechanical engineering problems using problem-based learning techniques, including definition of problem, creative problem solving, design of experiments, and optimization. To familiarize students with experience working as a member of an engineering work team, with experience using several modern tools and techniques to solve engineering problems. Course Summary: This course will help you develop the skills necessary to solve the real mechanical engineering problems facing engineers today. Students will learn underlying principles and master techniques to solve engineering problems. Students will explore techniques for definition of mechanical engineering problem and transformation into design problem, creative problem solving methods to create new ideas, design of experiments to plan experiments for maximum information with minimal experiments, and optimization. The tools you will use during the course include MATLAB and Excel.
2 2 DME2055 Mechanical Engineering Materials Core Major 3-3-0
Engineering Materials Provides fundamental knoeledge of engineering materials in manufacturing and processing, and in a selection design and construction of components or structures. In this course, knowledge of materials science together with be studied. Topics: elements of crystalline structures, strengthening mechanisms, heat treatments, ferrous alloys, nonferrous alloys, composite materials, advanced ceramics and their applications.
2 2 ELE3053 Electric Engineering Core Major 3-3-0
This course introduces the fundamentals of electric circuits, and the the methodologies of circuit analysis such as KVL, KCL, mesh and Nodal analysis, superposition,and the Norton and Thevenin theorems. It also covers the analysis of the AC network. AC power and dynamic responses of AC circuits will be covered. Frequency response and transient analysis will also be discussed.
2 2 MEE2010 INTRODUCTRY EXPERIMENT FOR MECHANICAL ENGINEERING Extended Major 3-1-4
This class concerns basic theories and experiments on the measurements and analysis of physical properties and characteristics of various mechanical sensors required for mechanical engineering. It is a team-based teaching and learning (2 persons/team), and teaches methodologies to acquire and analyze physical data using LabView software, a graphical programming language, on a computer. The data are measured with frequently used sensors in mechanical engineering applications like thermocouple, strain gage, accelerometer and etc. In addition, it covers usages of basic devices like oscilloscope, multimeter, and function generator that a mechanical engineer should be familiar with. Finally, the class includes post-processing of data, uncertainty analysis, report writing, and presentation skill.
2 2 MEE3001 Thermodynamics 1 Core Major 3-3-0
Thermodynamics 1 Introduction to the concept of energy and transformation of energy: the first and second law of thermodynamics, thermodynamic properties, conservation of energy for closed and open systems. Entropy and the second law of thermodynamics; the increase of entropy principle, entropy change of ideal gas, pure substance, and adiabatic efficiency of steady-flow devices. The second law analysis of an engineering system: availability, reversible work and irresponsibility, second law analysis of steady flow and unsteady flow systems.
2 2 SYH0002 GLOBAL LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The second step of this program, Global Leadership(HELP2) is the core course for sophomores. In the 21st century, we are moving into a global society where all countries are interconnected. Everything is changing at the speed of light. Competition is increasing. Digital convergence is occurring. Global leaders are the key to success for all organizations. In the global society, you can prepare for your future through HELP2. The purpose of HELP is to prepare students to be global leaders for the next generation. HELP2 teaches students: Global Leadership, Global Paradigm, Global Literacy, Global Manners and Global Mindset. Hanyang University students will be global leaders through HELP2.
2 2 COE3052 Engineering Mathematics 2 (Compulsory) Requirement in Fundamental Studies 3-3-0
In this subject, we learn complex functions, complex analysis fuctions, fundamental complex functions, Conformal mapping, linear fractional transformation, line integral in the complex plane, Cauchy's integral theorem and integral formula, derivatives in analysis function, power seriesm Taylor's series, Laurent's series, residue integration, ideal integration, matrix multiplication systematically. This subject is a prerequisite for understanding special subjects and helps us improve mathematical and scientific way of thinking.
2 2 DME2002 Strength of Materials 2 Core Major 3-3-0
After having studied the Mechanics of Materials 1, this course has to be taken. Stress and strain transformation formula, failure theories, beam design methods, the various calculation methods of beam deflections, solving methods of statically indeterminate problems, column buckling and stability design method, the limit design method and the various energy methods are studied.
2 2 DME2010 INTRODUCTION TO MECHANICAL DESIGN Core Major 3-3-0
Overall Course Objective: To provide students with the use of problem-solving skills for solving realistic mechanical engineering problems using problem-based learning techniques, including definition of problem, creative problem solving, design of experiments, and optimization. To familiarize students with experience working as a member of an engineering work team, with experience using several modern tools and techniques to solve engineering problems. Course Summary: This course will help you develop the skills necessary to solve the real mechanical engineering problems facing engineers today. Students will learn underlying principles and master techniques to solve engineering problems. Students will explore techniques for definition of mechanical engineering problem and transformation into design problem, creative problem solving methods to create new ideas, design of experiments to plan experiments for maximum information with minimal experiments, and optimization. The tools you will use during the course include MATLAB and Excel.
2 2 DME2055 Mechanical Engineering Materials Core Major 3-3-0
Engineering Materials Provides fundamental knoeledge of engineering materials in manufacturing and processing, and in a selection design and construction of components or structures. In this course, knowledge of materials science together with be studied. Topics: elements of crystalline structures, strengthening mechanisms, heat treatments, ferrous alloys, nonferrous alloys, composite materials, advanced ceramics and their applications.
2 2 DME2059 Introduction to computational engineering Extended Major 2-1-2
The objective of this course is for Mechanical Engineering students to learn the fundamentals of computations which can be useful for using commercial programs or for developing special purpose in-house programs to design products. To achieve the objective, this course consists of three components. The first is a brief introduction to the object-oriented programming. The second is an introduction to the data structure to store data in computer so that appropriate algorithm can be applied for. The third is an introduction to algorithm design to best utilize the data stored to solve engineering problems. The fundamental theory about computation including P vs. NP will be also covered so that the development of heuristic algorithm can be properly guided. The programming practice is an equally important part of this lecture as the lecture on theoretical issues on computation.
2 2 ENE3063 Electronic Engineering Extended Major 3-3-0
This course examines properties of semiconductors, characteristics of diodes, bipolar juction transistors, field effect transistors and basic digital elements. The class topics include fundamentals and applications of op-amp circuits and digital systems. It also covers their applications to many industrial electronic systems and kinds of equipments. Practical design techniques for electronic circuits and measurement system will be discussed.
2 2 MEE2010 INTRODUCTRY EXPERIMENT FOR MECHANICAL ENGINEERING Extended Major 3-1-4
This class concerns basic theories and experiments on the measurements and analysis of physical properties and characteristics of various mechanical sensors required for mechanical engineering. It is a team-based teaching and learning (2 persons/team), and teaches methodologies to acquire and analyze physical data using LabView software, a graphical programming language, on a computer. The data are measured with frequently used sensors in mechanical engineering applications like thermocouple, strain gage, accelerometer and etc. In addition, it covers usages of basic devices like oscilloscope, multimeter, and function generator that a mechanical engineer should be familiar with. Finally, the class includes post-processing of data, uncertainty analysis, report writing, and presentation skill.
2 2 MEE3001 Thermodynamics 1 Core Major 3-3-0
Thermodynamics 1 Introduction to the concept of energy and transformation of energy: the first and second law of thermodynamics, thermodynamic properties, conservation of energy for closed and open systems. Entropy and the second law of thermodynamics; the increase of entropy principle, entropy change of ideal gas, pure substance, and adiabatic efficiency of steady-flow devices. The second law analysis of an engineering system: availability, reversible work and irresponsibility, second law analysis of steady flow and unsteady flow systems.
2 2 SYH0002 GLOBAL LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The second step of this program, Global Leadership(HELP2) is the core course for sophomores. In the 21st century, we are moving into a global society where all countries are interconnected. Everything is changing at the speed of light. Competition is increasing. Digital convergence is occurring. Global leaders are the key to success for all organizations. In the global society, you can prepare for your future through HELP2. The purpose of HELP is to prepare students to be global leaders for the next generation. HELP2 teaches students: Global Leadership, Global Paradigm, Global Literacy, Global Manners and Global Mindset. Hanyang University students will be global leaders through HELP2.
2 2 COE3052 Engineering Mathematics 2 Basic Major 3-3-0
In this subject, we learn complex functions, complex analysis fuctions, fundamental complex functions, Conformal mapping, linear fractional transformation, line integral in the complex plane, Cauchy's integral theorem and integral formula, derivatives in analysis function, power seriesm Taylor's series, Laurent's series, residue integration, ideal integration, matrix multiplication systematically. This subject is a prerequisite for understanding special subjects and helps us improve mathematical and scientific way of thinking.
2 2 DME2002 Strength of Materials 2 Core Major 3-3-0
After having studied the Mechanics of Materials 1, this course has to be taken. Stress and strain transformation formula, failure theories, beam design methods, the various calculation methods of beam deflections, solving methods of statically indeterminate problems, column buckling and stability design method, the limit design method and the various energy methods are studied.
2 2 DME2055 Mechanical Engineering Materials Extended Major 3-3-0
Engineering Materials Provides fundamental knoeledge of engineering materials in manufacturing and processing, and in a selection design and construction of components or structures. In this course, knowledge of materials science together with be studied. Topics: elements of crystalline structures, strengthening mechanisms, heat treatments, ferrous alloys, nonferrous alloys, composite materials, advanced ceramics and their applications.
2 2 DME2059 Introduction to computational engineering Extended Major 3-2-2
The objective of this course is for Mechanical Engineering students to learn the fundamentals of computations which can be useful for using commercial programs or for developing special purpose in-house programs to design products. To achieve the objective, this course consists of three components. The first is a brief introduction to the object-oriented programming. The second is an introduction to the data structure to store data in computer so that appropriate algorithm can be applied for. The third is an introduction to algorithm design to best utilize the data stored to solve engineering problems. The fundamental theory about computation including P vs. NP will be also covered so that the development of heuristic algorithm can be properly guided. The programming practice is an equally important part of this lecture as the lecture on theoretical issues on computation.
2 2 ENE3063 Electronic Engineering Extended Major 3-3-0
This course examines properties of semiconductors, characteristics of diodes, bipolar juction transistors, field effect transistors and basic digital elements. The class topics include fundamentals and applications of op-amp circuits and digital systems. It also covers their applications to many industrial electronic systems and kinds of equipments. Practical design techniques for electronic circuits and measurement system will be discussed.
2 2 MEE2010 Basic Experiments and Design for Mechanical Engineering Extended Major 3-1-4
This class concerns basic theories and experiments on the measurements and analysis of physical properties and characteristics of various mechanical sensors required for mechanical engineering. It is a team-based teaching and learning (2 persons/team), and teaches methodologies to acquire and analyze physical data using LabView software, a graphical programming language, on a computer. The data are measured with frequently used sensors in mechanical engineering applications like thermocouple, strain gage, accelerometer and etc. In addition, it covers usages of basic devices like oscilloscope, multimeter, and function generator that a mechanical engineer should be familiar with. Finally, the class includes post-processing of data, uncertainty analysis, report writing, and presentation skill.
2 2 MEE3001 Thermodynamics 1 Core Major 3-3-0
Thermodynamics 1 Introduction to the concept of energy and transformation of energy: the first and second law of thermodynamics, thermodynamic properties, conservation of energy for closed and open systems. Entropy and the second law of thermodynamics; the increase of entropy principle, entropy change of ideal gas, pure substance, and adiabatic efficiency of steady-flow devices. The second law analysis of an engineering system: availability, reversible work and irresponsibility, second law analysis of steady flow and unsteady flow systems.
2 2 SYH0002 GLOBAL LEADERSHIP Compulsory General Studies 2-2-0
Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The second step of this program, Hanyang Leadership(HELP2) is the core course for Sophomores. In the 21st century, we are moving into a global soceity where all countries are interconnected. Everything is changing at the speed of light. Competition is increasing. Digital Convergence is occurring. Global leaders are the key to success for all organizations. In a global soceity, you can prepare for your future through HELP2. The purpose of HELP is to prepare students to be global leaders for the next generation. HELP2 teaches students: Global Leadership, Global Paradigm, Global Literacy, Global Manners, and Global Mindset. Hanyang university students will be global leaders through HELP2.
3 1 APA4010 Mechanism Design Elective Major 3-3-0
APA410 Kinematics of Mechanisms Kinematics of machines is the study of the relative motion of machine parts and is one of the first considerations of the designer in the design of a machine. As prerequisites to this course, a course in college physics and mathematics through calculus are sufficient. This course deals first with what a mechanism is, what a mechanism can do, how it can be classified, and its limitations. Then, all the various methods of analyzing the motions of mechanisms are presented. This course also treats the engineering problems involving the selection, the specifications, the design, and the sizing of mechanisms to accomplish specific motion objectives.
3 1 COE1012 Practical Engineering Research Initiative 3 Elective Major 1-0-2
In this course, students can participate in research projects of professors. Student who chose one projects among others proposed by teacher makes his/her own specified proposal for the study, then do the research during the term. Students will present his research result at the end of the term. The course stresses creative thinking and research exprience. The course opens to shopomores to Juniors and can be taken no more than 4 terms. Achievement of the class is evaluated with Pass or Fail.
3 1 COE3053 Engineering Mathematics 3 Elective Major 3-3-0
GEN358 ENGINEERING MATHEMATICS 3 This subject is designed to lead students to understand partial Differential Equations(PDEs) which are treated in all the engineering applications. This provides the understanding of the derivations of PDEs through vector analysis and coordinate transformation. PDEs such as Laplace, diffusion, and wave equations and their solutions through the separation of variables, Fourier transform, and Laplace transform.
3 1 DME3052 Machine Elements Design Compulsory Major 3-3-0
This is an introductory course in mechanical design analysis, and fundamentals of mechanical engineering design are applied to analyze, design and/or select components which are commonly used in the designs of complete mechanical systems including shafts, bearings, gear, spring, fastener, and so on. Understanding and practicing how to design and use such components will prepare you for more complex design and system integration tasks in industry.
3 1 MEE3002 Thermodynamics 2 Elective Major 3-3-0
MEE302 Thermodynamics2 Emphasis on the thermodynamic analysis of an engineering cycle: gas power cycles, vapor and combined power cycles, refrigeration cycles, air cinditioning systems, and gas turbine and jet engine cycles. Thermodynamic property relation, and behaviors of real gases: the Maxwell relation and the Joule-Thomson coefficient,general equation for specific heats, and dome applications of thermodynamics of reactive systems: chemical and phase equilibrium, non-reacting gas mixtures, psychomeetric chart, and cycle analysis of the air-conditioning process. The analysis of gas flow and thermidynamics of compressilbe flow: stagnation properties, one-dimensinal isentropic flow, normal shocks in nozzle flow, and shock waves in convergent-divergent passages.
3 1 MEE3003 Fluid Mechanics 1 Compulsory Major 3-3-0
MEE303 Fluid Mechanics 1 Basic continuum concepts; velocity field, fluid statics, basic conservation laws for systems and control volumes; continuity, momentum and energy equations and their applications; dimensional analysis and similitude and their applications to flow through ducts, and in open channels.
3 1 MEE3051 Mechanical Engineering Lab. 1 Compulsory Major 1-0-3
Mechanical Engineering Lab 1 Experiments in material science including report prparation, treatments, of errors and measured results, hardness test, tension tes, compression test, bending test, force-disp;acement-torque-stress measurements and stress-dtrain measurement by strain gage rousrtte.
3 1 MEE4009 Machine Tools Elective Major 3-2-2
MEE409 Machine Tools (공작기계) Introduction to cutting, tools and tooling, grinding, non-traditional machining, and machine tools. Principles and techniques of material-removal processes, quality control and machines. Principles of accuracy, process planning, selection of optimum operating conditions, jigs and fixtures, and design and analysis of high-speed/precision servomechanisms. Application of bearings and sensors, and calibration of machine tools; design, analysis and manufacturing principles of high-speed/precision machine tools. Fundamentals of computer aided manufacturing(CAM), NC programming, and flexible manufacturing systems(FMS). Classroom and laboratory practice included. 3 credits, 2 class and 2 practice hours.
3 1 COE1012 Practical Engineering Research Initiative 3 Elective Major 1-0-2
In this course, students can participate in research projects of professors. Student who chose one projects among others proposed by teacher makes his/her own specified proposal for the study, then do the research during the term. Students will present his research result at the end of the term. The course stresses creative thinking and research exprience. The course opens to shopomores to Juniors and can be taken no more than 4 terms. Achievement of the class is evaluated with Pass or Fail.
3 1 COE3053 Engineering Mathematics 3 Elective Major 3-3-0
GEN358 ENGINEERING MATHEMATICS 3 This subject is designed to lead students to understand partial Differential Equations(PDEs) which are treated in all the engineering applications. This provides the understanding of the derivations of PDEs through vector analysis and coordinate transformation. PDEs such as Laplace, diffusion, and wave equations and their solutions through the separation of variables, Fourier transform, and Laplace transform.
3 1 DME3003 Design and Analysis of Dynamic Systems Elective Major 3-3-0
DME303 System Analysis Background materials for system analysis and design mathematic modeling of dynamic systems such as mechanical systems, electrical and electromechanical systems, thermal systems, hydraulic and pneumatic systems; mathematical modeling of dynamic systems in state space; linear system analysis in the time domain and frequency domain; introduction to feedback control systems.
3 1 DME3052 Machine Elements Design Elective Major 3-3-0
This is an introductory course in mechanical design analysis, and fundamentals of mechanical engineering design are applied to analyze, design and/or select components which are commonly used in the designs of complete mechanical systems including shafts, bearings, gear, spring, fastener, and so on. Understanding and practicing how to design and use such components will prepare you for more complex design and system integration tasks in industry.
3 1 MAT3008 Numerical Analysis Compulsory General Studies 3-3-0
MAT308 NUMERLCAL ANALYSIS Numerical Analysis are techniques by which mathematical problems are formulated so that they can be solved with arithmetic operations. Although there are many kinds of numerical methods, they have one common characteristic. Numerical methods invariably involve large numbers of tedious arithmetic calculations. It is little wonder that with the development of fast, efficient digital computers, the role of numerical methods in engineering problem solving has increased dramatically in recent years.
3 1 MEE3002 Thermodynamics 2 Elective Major 3-3-0
MEE302 Thermodynamics2 Emphasis on the thermodynamic analysis of an engineering cycle: gas power cycles, vapor and combined power cycles, refrigeration cycles, air cinditioning systems, and gas turbine and jet engine cycles. Thermodynamic property relation, and behaviors of real gases: the Maxwell relation and the Joule-Thomson coefficient,general equation for specific heats, and dome applications of thermodynamics of reactive systems: chemical and phase equilibrium, non-reacting gas mixtures, psychomeetric chart, and cycle analysis of the air-conditioning process. The analysis of gas flow and thermidynamics of compressilbe flow: stagnation properties, one-dimensinal isentropic flow, normal shocks in nozzle flow, and shock waves in convergent-divergent passages.
3 1 MEE3003 Fluid Mechanics 1 Compulsory Major 3-3-0
MEE303 Fluid Mechanics 1 Basic continuum concepts; velocity field, fluid statics, basic conservation laws for systems and control volumes; continuity, momentum and energy equations and their applications; dimensional analysis and similitude and their applications to flow through ducts, and in open channels.
3 1 PME3002 Mechanical Vibration Elective Major 3-3-0
PME302 Mechanical Vibration Introduction to vibration and the free response: harmonic motion, viscous damping, energy method, stiffness. Response to harmonic excitation: harmonic excitation of undamped systems, base excitation, rotating unbalnace, Coulomb damping. General forced response: impulse response function, response to an arbitray input, response to arbitrary periodic input, transform method, response to random input. Multi-degree-of-freedom systems: eigen values and natural frequencies, modal analysis, modal analysis of the forced response. Distributed-parameter systems: vibration of a string, axial, torsional and bending vibration of rod, modal analysis and the forced response.
3 1 CHE3014 Applied Thermodynamics Core Major 3-3-0
CHE314 Applied Thermodynamics Emphasis on the thermodynamic analysis and application of an engineering cycle: gas power cycles, vapor and combined power cycles, refrigeration and air-conditioning systems, and gas turbine and jet engine cycles. Applications of thermodynamics of reactive systems: chemical and phase equilibrium, non-reacting gas mixtures, psychometric chart, The analysis of gas flow and thermodynamics of compressible flow: stagnation properties, one-dimensional isentropic flow, normal shocks in nozzle flow, Thermodynamic property relations, and behaviors of real gases: the Maxwell relation and the Joule-Thomson coefficient, general equation for specific heats.
3 1 COE1012 Practical Engineering Research Initiative 3 Extended Major 1-0-2
In this course, students can participate in research projects of professors. Student who chose one projects among others proposed by teacher makes his/her own specified proposal for the study, then do the research during the term. Students will present his research result at the end of the term. The course stresses creative thinking and research exprience. The course opens to shopomores to Juniors and can be taken no more than 4 terms. Achievement of the class is evaluated with Pass or Fail.
3 1 COE3053 Engineering Mathematics 3 Core Major 3-3-0
GEN358 ENGINEERING MATHEMATICS 3 This subject is designed to lead students to understand partial Differential Equations(PDEs) which are treated in all the engineering applications. This provides the understanding of the derivations of PDEs through vector analysis and coordinate transformation. PDEs such as Laplace, diffusion, and wave equations and their solutions through the separation of variables, Fourier transform, and Laplace transform.
3 1 DME3003 Design and Analysis of Dynamic Systems Core Major 3-3-0
DME303 System Analysis Background materials for system analysis and design mathematic modeling of dynamic systems such as mechanical systems, electrical and electromechanical systems, thermal systems, hydraulic and pneumatic systems; mathematical modeling of dynamic systems in state space; linear system analysis in the time domain and frequency domain; introduction to feedback control systems.
3 1 DME3052 Machine Elements Design Core Major 3-3-0
This is an introductory course in mechanical design analysis, and fundamentals of mechanical engineering design are applied to analyze, design and/or select components which are commonly used in the designs of complete mechanical systems including shafts, bearings, gear, spring, fastener, and so on. Understanding and practicing how to design and use such components will prepare you for more complex design and system integration tasks in industry.
3 1 MAT3008 Numerical Analysis Core Major 3-3-0
MAT308 NUMERLCAL ANALYSIS Numerical Analysis are techniques by which mathematical problems are formulated so that they can be solved with arithmetic operations. Although there are many kinds of numerical methods, they have one common characteristic. Numerical methods invariably involve large numbers of tedious arithmetic calculations. It is little wonder that with the development of fast, efficient digital computers, the role of numerical methods in engineering problem solving has increased dramatically in recent years.
3 1 MEE3007 Fluid Dynamics Core Major 3-3-0
Basic continuum concepts; velocity field, fluid statics, basic conservation laws for systems and control volumes; continuity, momentum and energy equations and their applications; dimensional analysis and similitude and their applications to flow through ducts, and in open channels.
3 1 PME2001 Manufacturing Processes Core Major 3-3-0
The course of manufacturing processes is for students to learn an application engineering processes for produce a semi-product or final product using the mechanics learned in junior level courses. This class consists of four main themes, casting process, bulk forming processes, sheet metal forming process, and welding process. Bulk forming processes include forging, rolling, drawing, and extrusion. At first, all these processes will be taught theoretically, and then movie films are provided for students for practical concepts. During this semester students will have an opportunity to attend exhibition show. For practical experiences, experiments will be performed in this course. Students exercise by themselves. Furthermore computer simulation such sysweld software will be taught for students. Therefore, this course is useful for application using the theoretical courses that are learned in class room and good chance to be industry in future for students.
3 1 COE3053 Engineering Mathematics 3 (Compulsory) Requirement in Fundamental Studies 3-3-0
This subject is designed to lead students to understand partial Differential Equations(PDEs) which are treated in all the engineering applications. This provides the understanding of the derivations of PDEs through vector analysis and coordinate transformation. PDEs such as Laplace, diffusion, and wave equations and their solutions through the separation of variables, Fourier transform, and Laplace transform
3 1 DME3003 Design and Analysis of Dynamic Systems Extended Major 3-3-0
System Analysis Background materials for system analysis and design mathematic modeling of dynamic systems such as mechanical systems, electrical and electromechanical systems, thermal systems, hydraulic and pneumatic systems; mathematical modeling of dynamic systems in state space; linear system analysis in the time domain and frequency domain; introduction to feedback control systems.
3 1 DME3052 Machine Elements Design Core Major 3-3-0
This is an introductory course in mechanical design analysis, and fundamentals of mechanical engineering design are applied to analyze, design and/or select components which are commonly used in the designs of complete mechanical systems including shafts, bearings, gear, spring, fastener, and so on. Understanding and practicing how to design and use such components will prepare you for more complex design and system integration tasks in industry.
3 1 ENE3063 Electronic Engineering Extended Major 3-3-0
This course examines properties of semiconductors, characteristics of diodes, bipolar juction transistors, field effect transistors and basic digital elements. The class topics include fundamentals and applications of op-amp circuits and digital systems. It also covers their applications to many industrial electronic systems and kinds of equipments. Practical design techniques for electronic circuits and measurement system will be discussed.
3 1 GEN6094 Fieldwork 1 Extended Major 3-0-3
This subject helps undergraduate to develope their executive ability. The department provide a chance to take part in internship during their vacation. It helps that undergraduate experience a rapidly changing trend and business before they are graduate, also they can decide their course in the future.
3 1 MAT3008 Numerical Analysis (Compulsory) Requirement in Fundamental Studies 3-3-0
NUMERLCAL ANALYSIS Numerical Analysis are techniques by which mathematical problems are formulated so that they can be solved with arithmetic operations. Although there are many kinds of numerical methods, they have one common characteristic. Numerical methods invariably involve large numbers of tedious arithmetic calculations. It is little wonder that with the development of fast, efficient digital computers, the role of numerical methods in engineering problem solving has increased dramatically in recent years.
3 1 MEE3002 Thermodynamics 2 Core Major 3-3-0
Thermodynamics2 Emphasis on the thermodynamic analysis of an engineering cycle: gas power cycles, vapor and combined power cycles, refrigeration cycles, air cinditioning systems, and gas turbine and jet engine cycles. Thermodynamic property relation, and behaviors of real gases: the Maxwell relation and the Joule-Thomson coefficient,general equation for specific heats, and dome applications of thermodynamics of reactive systems: chemical and phase equilibrium, non-reacting gas mixtures, psychomeetric chart, and cycle analysis of the air-conditioning process. The analysis of gas flow and thermidynamics of compressilbe flow: stagnation properties, one-dimensinal isentropic flow, normal shocks in nozzle flow, and shock waves in convergent-divergent passages.
3 1 MEE3003 Fluid Mechanics 1 Core Major 3-3-0
Fluid Mechanics 1 Basic continuum concepts; velocity field, fluid statics, basic conservation laws for systems and control volumes; continuity, momentum and energy equations and their applications; dimensional analysis and similitude and their applications to flow through ducts, and in open channels.
3 1 MEE4011 Measurement Engineering Extended Major 3-3-0
General construction of measurement systems and their characteristics; principles of typical mechanical measurement and their applications: sensitivity and resolution of measurement systems; data analysis and reliability evaluation; characteristics of typical sensors for mechanical measurement: measurement of length, strain, stress, force, torque, flow, velocity, temperature, vibration, sound and surface roughness, and several experimental demonstrations.
3 1 MME4058 Failure Analysis and Design Extended Major 3-3-0
The term failure can be defined as a deformation and/or fracture processes that are associated with a change of size, shape, and property of materials. In any types of engineering materials, mechanical behavior is closely related to its own material characteristics. Generally, failure processes of materials depend on micro structures, loading types, temperature and other environmental effects. It is, therefore important to understand how the materials really behavior under such conditions. Furthermore, for the case of high technology components, but for many others also, manufacturers require knowledge of hte consequences of failure analysis. This subject focusing on the above matters, and usually alternative approaches including analytical and experimental topics are employed to understand the modes of failure. Stress-strain in various deformation processes, creep, fracture, together with corresponding microstructural analysis will be given, particularly in engineering design viewpoints.
3 1 PME2001 Manufacturing Processes Core Major 3-3-0
Manufacturing Processes Emphasis on the fundamentals of structure, production and properties of manufacturing materials, material selection and treatment. Introduction to principal manufacturing processes and equipment, such as casting and injection molding, forming and shaping, machining, welding, and fabrication; materials and manufacturing processes' interrelationships; Introduction to computer-aided design (CAD), NC programming, computer-aided manufacturing (CAM), process planning, rapid prototyping, reverse design, design for manufacturing (DFM) and flexible manufacturing systems (FMS). Classroom lectures (3 hours/week) are included. 3credits.
3 1 TEA3008 Engineering Educational Theories on Subject Compulsory for Teacher Certification 2-2-0
In this course typical issues and themes about the engineering education and engineering teaching system are investigated in order to maximize the educational effect of engineering courses in junior and senior high schools. Special emphases are given on concrete educational strategy highlighting the basic relationship between modern industry and engineering courses, development and performing technique of engineering themes and relevant experimental methods as well as development of educational strategy and systematic teaching materials to enhance engineering originality.
3 1 TEA5008 Engineering Educational Theories on Subject --Major for Teacher Certifica-- 3-3-0
In this course typical issues and themes about the engineering education and engineering teaching system are investigated in order to maximize the educational effect of engineering courses in junior and senior high schools. Special emphases are given on concrete educational strategy highlighting the basic relationship between modern industry and engineering courses, development and performing technique of engineering themes and relevant experimental methods as well as development of educational strategy and systematic teaching materials to enhance engineering originality.
3 1 COE3053 Engineering Mathematics 3 (Compulsory) Requirement in Fundamental Studies 3-3-0
This subject is designed to lead students to understand partial Differential Equations(PDEs) which are treated in all the engineering applications. This provides the understanding of the derivations of PDEs through vector analysis and coordinate transformation. PDEs such as Laplace, diffusion, and wave equations and their solutions through the separation of variables, Fourier transform, and Laplace transform
3 1 DME3052 Machine Elements Design Core Major 3-3-0
This is an introductory course in mechanical design analysis, and fundamentals of mechanical engineering design are applied to analyze, design and/or select components which are commonly used in the designs of complete mechanical systems including shafts, bearings, gear, spring, fastener, and so on. Understanding and practicing how to design and use such components will prepare you for more complex design and system integration tasks in industry.
3 1 GEN6094 Fieldwork 1 Extended Major 3-0-3
This subject helps undergraduate to develope their executive ability. The department provide a chance to take part in internship during their vacation. It helps that undergraduate experience a rapidly changing trend and business before they are graduate, also they can decide their course in the future.
3 1 MAT3008 Numerical Analysis (Compulsory) Requirement in Fundamental Studies 3-3-0
NUMERLCAL ANALYSIS Numerical Analysis are techniques by which mathematical problems are formulated so that they can be solved with arithmetic operations. Although there are many kinds of numerical methods, they have one common characteristic. Numerical methods invariably involve large numbers of tedious arithmetic calculations. It is little wonder that with the development of fast, efficient digital computers, the role of numerical methods in engineering problem solving has increased dramatically in recent years.
3 1 MEE3002 Thermodynamics 2 Core Major 3-3-0
Thermodynamics2 Emphasis on the thermodynamic analysis of an engineering cycle: gas power cycles, vapor and combined power cycles, refrigeration cycles, air cinditioning systems, and gas turbine and jet engine cycles. Thermodynamic property relation, and behaviors of real gases: the Maxwell relation and the Joule-Thomson coefficient,general equation for specific heats, and dome applications of thermodynamics of reactive systems: chemical and phase equilibrium, non-reacting gas mixtures, psychomeetric chart, and cycle analysis of the air-conditioning process. The analysis of gas flow and thermidynamics of compressilbe flow: stagnation properties, one-dimensinal isentropic flow, normal shocks in nozzle flow, and shock waves in convergent-divergent passages.
3 1 MEE3003 Fluid Mechanics 1 Core Major 3-3-0
Fluid Mechanics 1 Basic continuum concepts; velocity field, fluid statics, basic conservation laws for systems and control volumes; continuity, momentum and energy equations and their applications; dimensional analysis and similitude and their applications to flow through ducts, and in open channels.
3 1 MEE4011 Measurement Engineering Extended Major 3-3-0
General construction of measurement systems and their characteristics; principles of typical mechanical measurement and their applications: sensitivity and resolution of measurement systems; data analysis and reliability evaluation; characteristics of typical sensors for mechanical measurement: measurement of length, strain, stress, force, torque, flow, velocity, temperature, vibration, sound and surface roughness, and several experimental demonstrations.
3 1 TEA5008 Engineering Educational Theories on Subject --Major for Teacher Certifica-- 3-3-0
In this course typical issues and themes about the engineering education and engineering teaching system are investigated in order to maximize the educational effect of engineering courses in junior and senior high schools. Special emphases are given on concrete educational strategy highlighting the basic relationship between modern industry and engineering courses, development and performing technique of engineering themes and relevant experimental methods as well as development of educational strategy and systematic teaching materials to enhance engineering originality.
3 1 COE3053 Engineering Mathematics 3 Basic Major 3-3-0
This subject is designed to lead students to understand partial Differential Equations(PDEs) which are treated in all the engineering applications. This provides the understanding of the derivations of PDEs through vector analysis and coordinate transformation. PDEs such as Laplace, diffusion, and wave equations and their solutions through the separation of variables, Fourier transform, and Laplace transform
3 1 DME2060 Linear Algebra and its applications Extended Major 3-2-2
A wide range of contemporarly engineering problems are solved by compututational methods which are based on linear algebra. This linear algebra course introduces the first step towards the mathematical foundations and the computational solution procedures for linear systems. Therefore the understanding of the linear algebra is essential for engineers. In this course, students learn some fundamental concepts such as the solution procedures of linear systems, vector, matirx, linear independence, basis, eigenvalue, and eigenvectors.
3 1 DME3052 Machine Elements Design Extended Major 3-3-0
This is an introductory course in mechanical design analysis, and fundamentals of mechanical engineering design are applied to analyze, design and/or select components which are commonly used in the designs of complete mechanical systems including shafts, bearings, gear, spring, fastener, and so on. Understanding and practicing how to design and use such components will prepare you for more complex design and system integration tasks in industry.
3 1 DME3060 Numerical Design for Dynamics Extended Major 3-1-4
3 1 GEN5026 Techno-Business Administration(Startup Capstone Design) Compulsory General Studies 3-3-0
Techno-business Administration is a practical and strategic course for producing techno-leaders of the New Millennium that the university pursues strategically. In this course, students will learn business process from the discovery of business items to sales through project based class. Through this, students develop entrepreneurship and collaboration ability and understand business process of enterprise through practice as well as theory.
3 1 MAT3008 Numerical Analysis Basic Major 3-3-0
NUMERLCAL ANALYSIS Numerical Analysis are techniques by which mathematical problems are formulated so that they can be solved with arithmetic operations. Although there are many kinds of numerical methods, they have one common characteristic. Numerical methods invariably involve large numbers of tedious arithmetic calculations. It is little wonder that with the development of fast, efficient digital computers, the role of numerical methods in engineering problem solving has increased dramatically in recent years.
3 1 MEE3002 Thermodynamics 2 Core Major 3-3-0
Thermodynamics2 Emphasis on the thermodynamic analysis of an engineering cycle: gas power cycles, vapor and combined power cycles, refrigeration cycles, air cinditioning systems, and gas turbine and jet engine cycles. Thermodynamic property relation, and behaviors of real gases: the Maxwell relation and the Joule-Thomson coefficient,general equation for specific heats, and dome applications of thermodynamics of reactive systems: chemical and phase equilibrium, non-reacting gas mixtures, psychomeetric chart, and cycle analysis of the air-conditioning process. The analysis of gas flow and thermidynamics of compressilbe flow: stagnation properties, one-dimensinal isentropic flow, normal shocks in nozzle flow, and shock waves in convergent-divergent passages.
3 1 MEE3003 Fluid Mechanics 1 Core Major 3-3-0
Fluid Mechanics 1 Basic continuum concepts; velocity field, fluid statics, basic conservation laws for systems and control volumes; continuity, momentum and energy equations and their applications; dimensional analysis and similitude and their applications to flow through ducts, and in open channels.
3 1 TEA5008 Engineering Educational Theories on Subject --Major for Teacher Certifica-- 3-3-0
In this course typical issues and themes about the engineering education and engineering teaching system are investigated in order to maximize the educational effect of engineering courses in junior and senior high schools. Special emphases are given on concrete educational strategy highlighting the basic relationship between modern industry and engineering courses, development and performing technique of engineering themes and relevant experimental methods as well as development of educational strategy and systematic teaching materials to enhance engineering originality.
3 2 COE1013 Practical Engineering Research Initiative 4 Elective Major 1-0-2
In this course, students can participate in research projects of professors. Student who chose one projects among others proposed by teacher makes his/her own specified proposal for the study, then do the research during the term. Students will present his research result at the end of the term. The course stresses creative thinking and research exprience. The course opens to shopomores to Juniors and can be taken no more than 4 terms. Achievement of the class is evaluated with Pass or Fail.
3 2 COE3002 Numerical Computation Compulsory General Studies 3-3-0
As one of the basic engineering courses, statics deals with the mechanics of particles and rigid bodies which are at rest or moving at a constant velocity. Equilibrium conditions for objects, which are subject to external forces, are studied and are applied to a nomber of engineering examples. The contents of this course include vector, force and moment, equilibrium conditions for particles and rigid bodies, center of gravity and centroid in 2 or 3 dimensions, moment of inertia, friction, virtual work and energy principles. Students also learn the concepts of statically determinate and indeterminate. For real world applicability, this course take structures such as trusses, beams and cables as examples, and applies the basic principles to them . After each chapter, the student completes and submits homework.
3 2 CSE4012 Computer Aided Design Elective Major 3-2-2
CSE412 Computer Aided Design (컴퓨터지원설계) This course covers an introduction to the hardware and software algorithms used for computer graphics and computer-aided design. It includes display devices. 2 and 3 dimensional transformations. geometric modeling, and surface representations. al hours of programming per week in the C and GL library on UNIX workstations. Examples and assignments will include painting and drawing programs, animation. manipulation of 2D and 3D objects. wire frame and 3D surface shading as well as CSG modeling. Prerequisite: ability to program in C on UNIX workstations.
3 2 DME3003 Design and Analysis of Dynamic Systems Elective Major 3-3-0
DME303 System Analysis Background materials for system analysis and design mathematic modeling of dynamic systems such as mechanical systems, electrical and electromechanical systems, thermal systems, hydraulic and pneumatic systems; mathematical modeling of dynamic systems in state space; linear system analysis in the time domain and frequency domain; introduction to feedback control systems
3 2 DME3051 Mechanical Design Elective Major 3-3-0
This is an introductory course in mechanical design analysis, and fundamentals of mechanical engineering design are applied to analyze, design and/or select components which are commonly used in the designs of complete mechanical systems including shafts, bearings, gear, spring, fastener, and so on. Understanding and practicing how to design and use such components will prepare you for more complex design and system integration tasks in industry.
3 2 MDE3001 Power Train Elective Major 3-3-0
MDE301 Powertrain System(동력전달시스템) The main objective of this course is to develop ability to understand and analyze the mechanical characteristics of automotive components used to transmit the power from engine to wheel in the vehicle. Topics to be covered are manual transmission and automatic transmission. The first includes clutches, gearboxes, propeller shaft & drive arrangement and rear axles. The second includes torque converter, hydraulic control systems, gearboxes, automotive sensory systems, and electronic control systems. Prerequisites: Kinematics, Dynamics, System Dynamics and Control Systems.
3 2 MDE3002 Automotive Engineering Elective Major 3-3-0
The purpose of this course is to provide the fundamental principles of power plant, power transmission system, body and styling, running resistances, automotive electric system, and the analysis of perfomance characteristics of the vehicle. In order to promote the design and application ability, the automotive engineering emphasizes that theoretical analysis of system structure, performance characteristics, steering and stability, and the problems of environmental protection due to the exhaust emission of the automotive engines. Also it deals with the theory and practice of new energy vehicles such as electric car, hybrid vehicle, and the other alternative energy vehicles.
3 2 MEE3004 Fluid Mechanics 2 Elective Major 3-3-0
MEE304 Fluid Mechanics 2 (유체역학2) Navier-Stockes equation for laminar incompressble flow, applications to tow dimensional laminar flow between parallel plates and flow in a pipe; Navier-Stockes equation for mean-time average quantities, apparent stress, Prandtl mixing length theory and velocity profile for turbulent flow: boundary layer theory. general consideration of irrotational flow. tow dimensional steady incompressible irrotational flow. axially symmetric incompressible irrotationnal flow. and open channel flow.
3 2 MEE3052 Mechanical Engineering Lab. 2 Compulsory Major 1-0-3
Mechanical Engineering Lab 2 Experiments in material science including report prparation, treatments, of errors and measured results, hardness test, tension tes, compression test, bending test, force-disp;acement-torque-stress measurements and stress-dtrain measurement by strain gage rousrtte.
3 2 MEE4002 Combustion Engine Elective Major 3-3-0
MEE402 Combustion Engine 연소기관 Introduction to internal combustion engine cycles,engine types and their operation,thermochemistry of fuel-air mixtures,engine performance.Analysis of spark ignition engines;carburetion, fuel injection system,engine knock,exhaust emissions,engine characteristics,and lubrication analysis.Analysis of compression ignition engin: fuel injection system,diesel knock,combustion chamber,and performance.Convectional and alternative fuels used in combustion engines.
3 2 MEE4010 Mechanics of Machinery Elective Major 3-3-0
MEE410 Dynamics of Mechanism (기계역학) This course covers the dynamics of machines, which includes the forces acting on parts of a machine and the motions resulting from these forces. prerequisites are Kinematics of Machines and a Mechanics course in Statics and Dynamics. The course is concerned with the consequences of the proposed analysis. Graphical and analytical methods are used. Balancing of rotors and reciprocating machinery is treated as well.
3 2 PME3002 Mechanical Vibration Elective Major 3-3-0
PME302 Mechanical Vibration Introduction to vibration and the free response: harmonic motion, viscous damping, energy method, stiffness. Response to harmonic excitation: harmonic excitation of undamped systems, base excitation, rotating unbalnace, Coulomb damping. General forced response: impulse response function, response to an arbitray input, response to arbitrary periodic input, transform method, response to random input. Multi-degree-of-freedom systems: eigen values and natural frequencies, modal analysis, modal analysis of the forced response. Distributed-parameter systems: vibration of a string, axial, torsional and bending vibration of rod, modal analysis and the forced response.
3 2 PME3006 Mechatronics Elective Major 3-2-2
PME306 Mechatronics (메카트로닉스) Analog circuits and digital logics for automatic systems. microcomputers and their interface with machines, actuators and their applications. typical sensors for automation systems, design of servo control systems and sequence control systems.
3 2 PME4003 Welding Technology Elective Major 3-3-0
There is to various infrastructure production and the welding which is a process which is important it is accurate and it understands, in each field under appropriateness it applies welding process it is proper with it provides the knowledge which is the possibility of making the infrastructure product which is good is not defect the fact that with aim. The laser welding and the electron beam welding which it uses in the point melting point which is an essential process from the arc welding law department auto industry back which it uses plentifully from the ship construction industrial back and candle precise processing and junction it is composed of and that application method back with the contents.
3 2 APA4010 Mechanism Design Elective Major 3-3-0
APA410 Kinematics of Mechanisms Kinematics of machines is the study of the relative motion of machine parts and is one of the first considerations of the designer in the design of a machine. As prerequisites to this course, a course in college physics and mathematics through calculus are sufficient. This course deals first with what a mechanism is, what a mechanism can do, how it can be classified, and its limitations. Then, all the various methods of analyzing the motions of mechanisms are presented. This course also treats the engineering problems involving the selection, the specifications, the design, and the sizing of mechanisms to accomplish specific motion objectives.
3 2 COE1013 Practical Engineering Research Initiative 4 Elective Major 1-0-2
n this course, students can participate in research projects of professors. Student who chose one projects among others proposed by teacher makes his/her own specified proposal for the study, then do the research during the term. Students will present his research result at the end of the term. The course stresses creative thinking and research exprience. The course opens to shopomores to Juniors and can be taken no more than 4 terms. Achievement of the class is evaluated with Pass or Fail.
3 2 CSE4012 Computer Aided Design Elective Major 3-2-2
CSE412 Computer Aided Design (컴퓨터지원설계) This course covers an introduction to the hardware and software algorithms used for computer graphics and computer-aided design. It includes display devices. 2 and 3 dimensional transformations. geometric modeling, and surface representations. al hours of programming per week in the C and GL library on UNIX workstations. Examples and assignments will include painting and drawing programs, animation. manipulation of 2D and 3D objects. wire frame and 3D surface shading as well as CSG modeling. Prerequisite: ability to program in C on UNIX workstations.
3 2 DME3009 DESIGN OPTIMIZATION Elective Major 3-3-0
Finding the best design with the available means is the goal of design optimization. This course applies optimization techniques to engineering design problems. Emphasis will be given to the interaction between mathematical modeling including problem formulation of engineering design problems and computations. Problems will be solved using mathematical programming methods including linear programming, sequential linear programming, random search, and gradient based search techniques.
3 2 ENE4054 Automatic Control Elective Major 3-3-0
ENE454 Automatic Control Introduction to feedback control systems; characteristics of control system response, stability analysis in time and frequency domain; root locus analysis, frequency response analysis, compensation methods of control system, and introduction to modern control theory.
3 2 MEE3004 Fluid Mechanics 2 Elective Major 3-3-0
MEE304 Fluid Mechanics 2 Navier-Stockes equation for laminar incompressble flow, applications to tow dimensional laminar flow between parallel plates and flow in a pipe; Navier-Stockes equation for mean-time average quantities, apparent stress, Prandtl mixing length theory and velocity profile for turbulent flow: boundary layer theory. general consideration of irrotational flow. tow dimensional steady incompressible irrotational flow. axially symmetric incompressible irrotationnal flow. and open channel flow.
3 2 MEE4001 Heat Transfer Elective Major 3-3-0
MEE401 Heat Transfer Introduction to conduction, steady-state conduction, transient conduction; introduction to convection, forced convection for internal and external flow; analogy between heat and momentum transport; laminar free convection, empirical correlation; radiation processes and properties, radiation exchage between surfaces; heat exchanger types and analysis, compact heat exchanger.
3 2 PME3006 Mechatronics Elective Major 3-2-2
PME306 Mechatronics (메카트로닉스) Analog circuits and digital logics for automatic systems. microcomputers and their interface with machines, actuators and their applications. typical sensors for automation systems, design of servo control systems and sequence control systems.
3 2 APA4010 Mechanism Design Core Major 3-3-0
APA410 Kinematics of Mechanisms Every machine is devised to produce the output desired through the mechanism or the combination of mechanisms transmitting motions and forces for the given input. This course deals first with what a mechanism is, what a mechanism can do, how it can be classified, and its limitations. Then, various methods of analyzing the motions of mechanisms are presented. This course also treats the engineering problems involving the selection, the specifications, the design, and the sizing of cam mechanisms to accomplish specific motion objectives. Finally, this course presents the methods and applications of static force analysis and dynamic force analysis.
3 2 CSE4012 Computer Aided Design Extended Major 3-2-2
CSE412 Computer Aided Design (컴퓨터지원설계) This course covers an introduction to the hardware and software algorithms used for computer graphics and computer-aided design. It includes display devices. 2 and 3 dimensional transformations. geometric modeling, and surface representations. al hours of programming per week in the C and GL library on UNIX workstations. Examples and assignments will include painting and drawing programs, animation. manipulation of 2D and 3D objects. wire frame and 3D surface shading as well as CSG modeling. Prerequisite: ability to program in C on UNIX workstations.
3 2 DME3009 DESIGN OPTIMIZATION Extended Major 3-3-0
Finding the best design with the available means is the goal of design optimization. This course applies optimization techniques to engineering design problems. Emphasis will be given to the interaction between mathematical modeling including problem formulation of engineering design problems and computations. Problems will be solved using mathematical programming methods including linear programming, sequential linear programming, random search, and gradient based search techniques.
3 2 ENE4054 Automatic Control Core Major 3-3-0
ENE454 Automatic Control Introduction to feedback control systems; characteristics of control system response, stability analysis in time and frequency domain; root locus analysis, frequency response analysis, compensation methods of control system, and introduction to modern control theory.
3 2 GEN5026 Techno-Business Administration (Compulsory) Requirement in Fundamental Studies 2-2-0
The Techno-Business Administration program basically educates sophomore of engineering in both managerial principles and technological issues in order to deal with the future management environment. The program offers rigorous academic and applied courses along with an extensive international exposure. The program is also committed to educating future business leaders to successfully compete in global markets. The tracks include: Marketing Venture Management eBusiness Accounting, Finance & Business Analysis Strategy & Organization etc.
3 2 MEE3057 Applied Fluid Mechanics Core Major 3-3-0
Navier-Stockes equation for laminar incompressble flow, applications to two dimensional laminar flow between parallel plates and flow in a pipe; Navier-Stockes equation for mean-time average quantities, apparent stress, Prandtl mixing length theory and velocity profile for turbulent flow: boundary layer theory. general consideration of irrotational flow. tow dimensional steady incompressible irrotational flow. axially symmetric incompressible irrotationnal flow. and open channel flow.
3 2 MEE4001 Heat Transfer Core Major 3-3-0
MEE401 Heat Transfer Introduction to conduction, steady-state conduction, transient conduction; introduction to convection, forced convection for internal and external flow; analogy between heat and momentum transport; laminar free convection, empirical correlation; radiation processes and properties, radiation exchage between surfaces; heat exchanger types and analysis, compact heat exchanger.
3 2 MEE4002 Combustion Engine Extended Major 3-3-0
MEE402 Combustion Engine Introduction to internal combustion engine cycles,engine types and their operation,thermochemistry of fuel-air mixtures,engine performance and design. Analysis of spark ignition engines; fuel injection system,engine knock,exhaust emissions,engine characteristics,and lubrication analysis.Analysis of compression ignition engin: fuel injection system,diesel knock,combustion chamber,and performance. Alternative fuel engine: new energy and alternative engine analysis.
3 2 MEE4011 Measurement Engineering Core Major 3-2-2
MEE411 Measurement Engineering General construction of measurement systems and their characteristics; principles of typical mechanical measurement and their applications: sensitivity and resolution of measurement systems; data analysis and reliability evaluation; characteristics of typical sensors for mechanical measurement: measurement of length, strain, stress, force, torque, flow, velocity, temperature, vibration, sound and surface roughness, and several experimental demonstrations.
3 2 PME3002 Mechanical Vibration Extended Major 3-3-0
PME302 Mechanical Vibration Introduction to vibration and the free response: harmonic motion, viscous damping, energy method, stiffness. Response to harmonic excitation: harmonic excitation of undamped systems, base excitation, rotating unbalnace, Coulomb damping. General forced response: impulse response function, response to an arbitray input, response to arbitrary periodic input, transform method, response to random input. Multi-degree-of-freedom systems: eigen values and natural frequencies, modal analysis, modal analysis of the forced response. Distributed-parameter systems: vibration of a string, axial, torsional and bending vibration of rod, modal analysis and the forced response.
3 2 PME3006 Mechatronics Extended Major 3-2-2
PME306 Mechatronics (메카트로닉스) Analog circuits and digital logics for automatic systems. microcomputers and their interface with machines, actuators and their applications. typical sensors for automation systems, design of servo control systems and sequence control systems.
3 2 APA4010 Mechanism Design Extended Major 3-3-0
Kinematics of Mechanisms Every machine is devised to produce the output desired through the mechanism or the combination of mechanisms transmitting motions and forces for the given input. This course deals first with what a mechanism is, what a mechanism can do, how it can be classified, and its limitations. Then, various methods of analyzing the motions of mechanisms are presented. This course also treats the engineering problems involving the selection, the specifications, the design, and the sizing of cam mechanisms to accomplish specific motion objectives. Finally, this course presents the methods and applications of static force analysis and dynamic force analysis.
3 2 CSE4012 Computer Aided Design Extended Major 3-2-2
Computer Aided Design (컴퓨터지원설계) This course covers an introduction to the hardware and software algorithms used for computer graphics and computer-aided design. It includes display devices. 2 and 3 dimensional transformations. geometric modeling, and surface representations. al hours of programming per week in the C and GL library on UNIX workstations. Examples and assignments will include painting and drawing programs, animation. manipulation of 2D and 3D objects. wire frame and 3D surface shading as well as CSG modeling. Prerequisite: ability to program in C on UNIX workstations.
3 2 DME3009 DESIGN OPTIMIZATION Extended Major 3-3-0
Finding the best design with the available means is the goal of design optimization. This course applies optimization techniques to engineering design problems. Emphasis will be given to the interaction between mathematical modeling including problem formulation of engineering design problems and computations. Problems will be solved using mathematical programming methods including linear programming, sequential linear programming, random search, and gradient based search techniques.
3 2 DME3012 VEHICLE STRUCTURE Extended Major 3-2-2
Emphasis is on body concept for design using first order modeling of thin walled structural elements. Practical application of solid/structural mechanics is considered to design automotive bodies for global bending, torsion, vibration, crashworthiness, topology, material selection, packaging, and manufacturing constraints.
3 2 ENE4054 Automatic Control Core Major 3-3-0
Automatic Control Introduction to feedback control systems; characteristics of control system response, stability analysis in time and frequency domain; root locus analysis, frequency response analysis, compensation methods of control system, and introduction to modern control theory.
3 2 GEN5026 Techno-Business Administration (Compulsory) Requirement in Fundamental Studies 3-2-2
The Techno-Business Administration program basically educates sophomore of engineering in both managerial principles and technological issues in order to deal with the future management environment. The program offers rigorous academic and applied courses along with an extensive international exposure. The program is also committed to educating future business leaders to successfully compete in global markets. The tracks include: Marketing Venture Management eBusiness Accounting, Finance & Business Analysis Strategy & Organization etc.
3 2 GEN6095 Fieldwork 2 Extended Major 3-0-3
This subject helps undergraduate to develope their executive ability. The department provide a chance to take part in internship during their vacation. It helps that undergraduate experience a rapidly changing trend and business before they are graduate, also they can decide their course in the future.
3 2 MEE3004 Fluid Mechanics 2 Core Major 3-3-0
Fluid Mechanics 2 Navier-Stockes equation for laminar incompressble flow, applications to tow dimensional laminar flow between parallel plates and flow in a pipe; Navier-Stockes equation for mean-time average quantities, apparent stress, Prandtl mixing length theory and velocity profile for turbulent flow: boundary layer theory. general consideration of irrotational flow. tow dimensional steady incompressible irrotational flow. axially symmetric incompressible irrotationnal flow. and open channel flow.
3 2 MEE4001 Heat Transfer Core Major 3-3-0
Heat Transfer Introduction to conduction, steady-state conduction, transient conduction; introduction to convection, forced convection for internal and external flow; analogy between heat and momentum transport; laminar free convection, empirical correlation; radiation processes and properties, radiation exchage between surfaces; heat exchanger types and analysis, compact heat exchanger.
3 2 MEE4036 Finite Element Analysis Extended Major 3-2-2
Finite Element Analysis Deformation, stress and dynamic characteristics of complex machine structures are generally analyzed by the finite element method. In this course, the basic concepts of the finite element method, formulation methods, element classification and its characteristics, modeling techniques of structures, effective usage of package programs and the design application methods of analysis results are studied through the lecture and the practice.
3 2 PME3002 Mechanical Vibration Extended Major 3-3-0
Mechanical Vibration Introduction to vibration and the free response: harmonic motion, viscous damping, energy method, stiffness. Response to harmonic excitation: harmonic excitation of undamped systems, base excitation, rotating unbalnace, Coulomb damping. General forced response: impulse response function, response to an arbitray input, response to arbitrary periodic input, transform method, response to random input. Multi-degree-of-freedom systems: eigen values and natural frequencies, modal analysis, modal analysis of the forced response. Distributed-parameter systems: vibration of a string, axial, torsional and bending vibration of rod, modal analysis and the forced response.
3 2 PME3006 Mechatronics Extended Major 3-2-2
Mechatronics (메카트로닉스) Analog circuits and digital logics for automatic systems. microcomputers and their interface with machines, actuators and their applications. typical sensors for automation systems, design of servo control systems and sequence control systems.
3 2 SYH0003 BUSINESS LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Businesss Leadership (HELP 3) program is a course for juniors, which aims to help students 1) understand principles of capitalism and market economy and learn common sense in relation to economy and finance, 2) learn principles and nature of corporations and how to develop a critical view toward them, and 3) acquire an administrative mind through self-management.
3 2 TEA3028 ENGINEERING LOGIC AND ESSAY WRITING --Major for Teacher Certifica-- 2-2-0
In this course the necessity and philosophical aspects of engineering education are investigated, and methods of building up current viewpoints about engineering issues logically and presenting subjective criticism clearly are cultivated. The ability of persuasive presentation and documentation as well as logical organization about the approach and solution for various engineering problems is to be developed.
3 2 APA4010 Mechanism Design Extended Major 3-3-0
Kinematics of Mechanisms Every machine is devised to produce the output desired through the mechanism or the combination of mechanisms transmitting motions and forces for the given input. This course deals first with what a mechanism is, what a mechanism can do, how it can be classified, and its limitations. Then, various methods of analyzing the motions of mechanisms are presented. This course also treats the engineering problems involving the selection, the specifications, the design, and the sizing of cam mechanisms to accomplish specific motion objectives. Finally, this course presents the methods and applications of static force analysis and dynamic force analysis.
3 2 DME3003 Design and Analysis of Dynamic Systems Extended Major 3-3-0
System Analysis Background materials for system analysis and design mathematic modeling of dynamic systems such as mechanical systems, electrical and electromechanical systems, thermal systems, hydraulic and pneumatic systems; mathematical modeling of dynamic systems in state space; linear system analysis in the time domain and frequency domain; introduction to feedback control systems.
3 2 DME4062 Applications of Mechanical Engineering 1 Extended Major 1-1-0
This course aims to develop the solid understanding of the applications of mechanical engineering for those who major in mechanical engineering. Students learn how to apply their knowledge to a variety of applications. Their knowledge includes thermodynamics, combustion, fluid mechanics, mechanics of materials, heat transfer, dynamics, control, vibration, optimum design, energy, nano, bio, MEMS, manufacturing and so on, and the applications include automobiles, airplanes, power plants, home appliances, robots, renewable energy, semiconductors, military, and bio industries.
3 2 GEN5026 Techno-Business Administration(Startup Capstone Design) (Compulsory) Requirement in Fundamental Studies 3-3-0
The Techno-Business Administration program basically educates sophomore of engineering in both managerial principles and technological issues in order to deal with the future management environment. The program offers rigorous academic and applied courses along with an extensive international exposure. The program is also committed to educating future business leaders to successfully compete in global markets. The tracks include: Marketing Venture Management eBusiness Accounting, Finance & Business Analysis Strategy & Organization etc.
3 2 GEN5100 Career Development II (Portfolio and Business model Creation) (Compulsory) Requirement in Fundamental Studies 1-1-0
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
3 2 GEN6095 Fieldwork 2 Extended Major 3-0-3
This subject helps undergraduate to develope their executive ability. The department provide a chance to take part in internship during their vacation. It helps that undergraduate experience a rapidly changing trend and business before they are graduate, also they can decide their course in the future.
3 2 MEE3004 Fluid Mechanics 2 Core Major 3-3-0
Fluid Mechanics 2 Navier-Stockes equation for laminar incompressble flow, applications to tow dimensional laminar flow between parallel plates and flow in a pipe; Navier-Stockes equation for mean-time average quantities, apparent stress, Prandtl mixing length theory and velocity profile for turbulent flow: boundary layer theory. general consideration of irrotational flow. tow dimensional steady incompressible irrotational flow. axially symmetric incompressible irrotationnal flow. and open channel flow.
3 2 MEE4001 Heat Transfer Core Major 3-3-0
Heat Transfer Introduction to conduction, steady-state conduction, transient conduction; introduction to convection, forced convection for internal and external flow; analogy between heat and momentum transport; laminar free convection, empirical correlation; radiation processes and properties, radiation exchage between surfaces; heat exchanger types and analysis, compact heat exchanger.
3 2 PME2001 Manufacturing Processes Core Major 3-3-0
Manufacturing Processes Emphasis on the fundamentals of structure, production and properties of manufacturing materials, material selection and treatment. Introduction to principal manufacturing processes and equipment, such as casting and injection molding, forming and shaping, machining, welding, and fabrication; materials and manufacturing processes' interrelationships; Introduction to computer-aided design (CAD), NC programming, computer-aided manufacturing (CAM), process planning, rapid prototyping, reverse design, design for manufacturing (DFM) and flexible manufacturing systems (FMS). Classroom lectures (3 hours/week) are included. 3credits.
3 2 PME3002 Mechanical Vibration Extended Major 3-3-0
Mechanical Vibration Introduction to vibration and the free response: harmonic motion, viscous damping, energy method, stiffness. Response to harmonic excitation: harmonic excitation of undamped systems, base excitation, rotating unbalnace, Coulomb damping. General forced response: impulse response function, response to an arbitray input, response to arbitrary periodic input, transform method, response to random input. Multi-degree-of-freedom systems: eigen values and natural frequencies, modal analysis, modal analysis of the forced response. Distributed-parameter systems: vibration of a string, axial, torsional and bending vibration of rod, modal analysis and the forced response.
3 2 PME3006 Mechatronics Extended Major 3-2-2
Mechatronics (메카트로닉스) Analog circuits and digital logics for automatic systems. microcomputers and their interface with machines, actuators and their applications. typical sensors for automation systems, design of servo control systems and sequence control systems.
3 2 SYH0003 ENTREPRENEURSHIP AND BUSINESS LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Businesss Leadership (HELP 3) program is a course for juniors, which aims to help students 1) understand principles of capitalism and market economy and learn common sense in relation to economy and finance, 2) learn principles and nature of corporations and how to develop a critical view toward them, and 3) acquire an administrative mind through self-management.
3 2 TEA3028 ENGINEERING LOGIC AND ESSAY WRITING --Major for Teacher Certifica-- 2-2-0
In this course the necessity and philosophical aspects of engineering education are investigated, and methods of building up current viewpoints about engineering issues logically and presenting subjective criticism clearly are cultivated. The ability of persuasive presentation and documentation as well as logical organization about the approach and solution for various engineering problems is to be developed.
3 2 DME3003 Design and Analysis of Dynamic Systems Core Major 3-3-0
System Analysis Background materials for system analysis and design mathematic modeling of dynamic systems such as mechanical systems, electrical and electromechanical systems, thermal systems, hydraulic and pneumatic systems; mathematical modeling of dynamic systems in state space; linear system analysis in the time domain and frequency domain; introduction to feedback control systems.
3 2 DME3061 Numerical Design for Thermodynamics Extended Major 3-1-4
3 2 DME3062 Numerical Design for Solid Mechanics Extended Major 3-1-4
3 2 DME3063 Thermo and Fluid Engineering Lab. 1 Extended Major 2-0-4
3 2 DME3064 Dynamics and Control Lab. 1 Extended Major 2-0-4
3 2 DME3065 Material and Manufacturing Lab. 1 Extended Major 2-0-4
3 2 DME4062 Applications of Mechanical Engineering 1 Extended Major 1-1-0
This course aims to develop the solid understanding of the applications of mechanical engineering for those who major in mechanical engineering. Students learn how to apply their knowledge to a variety of applications. Their knowledge includes thermodynamics, combustion, fluid mechanics, mechanics of materials, heat transfer, dynamics, control, vibration, optimum design, energy, nano, bio, MEMS, manufacturing and so on, and the applications include automobiles, airplanes, power plants, home appliances, robots, renewable energy, semiconductors, military, and bio industries.
3 2 GEN5100 Career Development II (Portfolio and Business model Creation) Compulsory General Studies 1-1-0
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
3 2 MEE3004 Fluid Mechanics 2 Core Major 3-3-0
Fluid Mechanics 2 Navier-Stockes equation for laminar incompressble flow, applications to tow dimensional laminar flow between parallel plates and flow in a pipe; Navier-Stockes equation for mean-time average quantities, apparent stress, Prandtl mixing length theory and velocity profile for turbulent flow: boundary layer theory. general consideration of irrotational flow. tow dimensional steady incompressible irrotational flow. axially symmetric incompressible irrotationnal flow. and open channel flow.
3 2 MEE4001 Heat Transfer Core Major 3-3-0
Heat Transfer Introduction to conduction, steady-state conduction, transient conduction; introduction to convection, forced convection for internal and external flow; analogy between heat and momentum transport; laminar free convection, empirical correlation; radiation processes and properties, radiation exchage between surfaces; heat exchanger types and analysis, compact heat exchanger.
3 2 PME2001 Manufacturing Processes Core Major 3-3-0
Manufacturing Processes Emphasis on the fundamentals of structure, production and properties of manufacturing materials, material selection and treatment. Introduction to principal manufacturing processes and equipment, such as casting and injection molding, forming and shaping, machining, welding, and fabrication; materials and manufacturing processes' interrelationships; Introduction to computer-aided design (CAD), NC programming, computer-aided manufacturing (CAM), process planning, rapid prototyping, reverse design, design for manufacturing (DFM) and flexible manufacturing systems (FMS). Classroom lectures (3 hours/week) are included. 3credits.
3 2 PME3002 Mechanical Vibration Core Major 3-3-0
Mechanical Vibration Introduction to vibration and the free response: harmonic motion, viscous damping, energy method, stiffness. Response to harmonic excitation: harmonic excitation of undamped systems, base excitation, rotating unbalnace, Coulomb damping. General forced response: impulse response function, response to an arbitray input, response to arbitrary periodic input, transform method, response to random input. Multi-degree-of-freedom systems: eigen values and natural frequencies, modal analysis, modal analysis of the forced response. Distributed-parameter systems: vibration of a string, axial, torsional and bending vibration of rod, modal analysis and the forced response.
3 2 SYH0003 ENTREPRENEURSHIP AND BUSINESS LEADERSHIP Compulsory General Studies 2-2-0
Businesss Leadership (HELP 3) program is a course for juniors, which aims to help students 1) understand principles of capitalism and market economy and learn common sense in relation to economy and finance, 2) learn principles and nature of corporations and how to develop a critical view toward them, and 3) acquire an administrative mind through self-management.
3 2 TEA3028 ENGINEERING LOGIC AND ESSAY WRITING --Major for Teacher Certifica-- 2-2-0
In this course the necessity and philosophical aspects of engineering education are investigated, and methods of building up current viewpoints about engineering issues logically and presenting subjective criticism clearly are cultivated. The ability of persuasive presentation and documentation as well as logical organization about the approach and solution for various engineering problems is to be developed.
4 1 AUE4011 Combustion Engineering Elective Major 3-3-0
AUE411 Combustion Engineering (연소공학) Chemical equilibrium, chemical kinetics, and governing equations in chemically reacting flows; detonation and deflagration waves; premixed and diffusion flames, calculation of flame speed, ignition and extinction, droplet vaporization and combustion; pollutant formation mechanism, and combustion measurement techniques
4 1 COE1014 Practical Engineering Research Initiative 5 Elective Major 1-0-2
In this course, students can participate in research projects of professors. Student who chose one projects among others proposed by teacher makes his/her own specified proposal for the study, then do the research during the term. Students will present his research result at the end of the term. The course stresses creative thinking and research exprience. The course opens to shopomores to Juniors and can be taken no more than 4 terms. Achievement of the class is evaluated with Pass or Fail.
4 1 DME4010 Automation of Manufacturing Systems Elective Major 3-3-0
.DME410 Automation of Manufacturing Systems 생산자동화 Design,modeling,analysis and control of manufacturing systems.Analytical and experimental techniques of general imporance in engineering measurement problems.System components and their operation of electromechanical systems.Architecture of manufacturing automation systems,data acquisition,logic design and analysis, I/O structure and interfacing,serial and parallel communications,and application of programmable logic controllers(PLC). Concepts of feedback control theory as applied to servomechani는(CNC, machine tools,robots,etc).Digital and adaptive control theory and analysis are also applied to manufacturing systems.Case studies for computer control of manufacturing processes; machining, assembly, forming and welding. 3 credits.
4 1 ENE4041 Micro-Processor Applications Elective Major 3-2-2
ENE441 Micro-processor Applications 마이크로 프로세서 응용 Covers microprocessor structures including ALU,memory,and I/O devices and their operations;applications software in assembly language and C for targethardware ; embeddd systems;term projects of microprocessor applications involved.
4 1 ENE4054 Automatic Control Elective Major 3-3-0
ENE454 Automatic Control (자동제어) Introduction to feedback control systems; characteristics of control system response, stability analysis in time and frequency domain; root locus analysis, frequency response analysis, compensation methods of control system, and introduction to modern control theory.
4 1 MDE4002 Turbo-Machinary Elective Major 3-3-0
The reserve knowledge regarding the turbo machine; The thermodynamics regarding the energy transportation and gas oil east between dimensional analysis, the fluid and the rotary car, type of turbo machine undergarment fluid flow and turbo machine, the aircraft propulsion agency, with the axis type compressor it sprouts and it treats the interpretation back of objection, the mammary gland curvature law, blade plan objection and Turbojet and of U Bin Turbofan Cycle.
4 1 MDE4006 Vehicle Dynamics and Control Elective Major 3-3-0
Prerquisites: Kinematics, Dynamics. System Analysis and Control Systems. This course will emphasize procedures for analysis, control and prediction of vehicle performance. Topics to be covered are:(1) fundamentals of vehicle dynamic characteristics and control; (2) modeling and analysis of suspensions. steering systems, powertrains. brake systems and engine dynamics;(3) tire model and dynamics. also. vehicle dynamic performance.
4 1 MEE4001 Heat Transfer Elective Major 3-3-0
Heat Transfer The transport mechanisms of heat can be classified as conduction, convection (forced and natural), radiation and combination of these. With the concept on transport mechanisms of heat, the method of setting-up energy balance equation for given engineering systems and the mathematical solution of each energy balance equation would be studied. The applications of energy balance equations into the design of heat transfer equipments would also be studied.
4 1 MEE4013 Mechanical Engineering Lab. 3 Compulsory Major 1-0-3
Experiments in material science including report prparation, treatments, of errors and measured results, hardness test, tension tes, compression test, bending test, force-disp;acement-torque-stress measurements and stress-dtrain measurement by strain gage rousrtte.
4 1 MEE4019 Fluid Power Systems Elective Major 3-3-0
In order to construct efficiency interpretation and plan meritorious pressure driving gear it is used plentifully in automation of the various industrial machine and the construction machine the knowledge which is the possibility of doing the hydraulic pump, hydraulic valve and hydraulic misfortune thyu sprouts and the quality against the hydraulic machinery and tools of the hydraulic cadence machinery and tools back, against oil-hydraulic circuit it learns, efficiency, the public pressure valve and misfortune air compressor thyu sprouts and it is with a various air press circuit which is applied in quality and automation circuit and an electric signal to sprout and against pay Sing technique it studies.
4 1 MEE4029 Hvac Elective Major 3-3-0
MEE429 Air Conditioning and Refrigeration Explores the fundamentals of heating, ventilating, and air-conditioning (HVAC) systems. Discussion of psychrometrics, air conditioning processes, thermal comfort, indoor air quality and outdoor design conditions; concentration on the calculation of heating and cooling load in order to size suitable HVAC equipment; estimation of energy consumption of the HVAC equipment. Introduces plant engineering for mechanical engineeres.
4 1 MEE4032 Basic Computational Fluid Dynamics Elective Major 3-3-0
Course deals with fundamentals of the fluid mechanics and thermodynamics of turbo-machinery with emphasis on fans,including cycles, components and component-matching. Behavior and design of compressors, turbines and pumps. Upon successful completion of course, students will be able to evaluate the performance of turbo-machinery and design and optimize component and system performance.
4 1 PME4007 Fundamental of Elasticity & Plasticity Elective Major 3-3-0
PME407 Mechanics of Elasto-Plasticity After having studied the Mechanics of Solids, the general elastic and plastic stress-strain systems of deformable bodies are studied in this course. Force and moment equilibrium equations, Cauchys equations, the transformation rules of stresses and strains, principal planes, compliance and constitutive relations, failure criterion, flow rules, elasto-plastic analysis method of solids, limit design of members, and plastic working examples are discussed.
4 1 PME4008 Optical Engineering Elective Major 3-3-0
Basic principles of optics, description of optical phenomena and their application to mechanical engineering: imaging by mirror and lens, mirror and lens equations, electro-magnetic characterizations of light, superposition of wave, interference and its applications to interferometry, holography and holographic interferometer, diffraction and Fourier optics, optical signal processing, and laser applications.
4 1 AUE4011 Combustion Engineering Elective Major 3-3-0
AUE411 Combustion Engineering (연소공학) Chemical equilibrium, chemical kinetics, and governing equations in chemically reacting flows; detonation and deflagration waves; premixed and diffusion flames, calculation of flame speed, ignition and extinction, droplet vaporization and combustion; pollutant formation mechanism, and combustion measurement techniques.
4 1 COE1014 Practical Engineering Research Initiative 5 Elective Major 1-0-2
4 1 GEN3058 Engineering Economy Compulsory General Studies 3-3-0
GEN358 ENGINEERING ECONOMY This subject is designed to introduce students to the concepts and methods necessary for estimating values of systems, products, and services in relation to the cost. This subject leads students both to understand importance of the economic point of view of engineering also to get proficient in valuating the economical efficiency of engineering proposal.
4 1 MDE3001 Power Train Elective Major 3-3-0
MDE301 Powertrain System(동력전달시스템) The main objective of this course is to develop ability to understand and analyze the mechanical characteristics of automotive components used to transmit the power from engine to wheel in the vehicle. Topics to be covered are manual transmission and automatic transmission. The first includes clutches, gearboxes, propeller shaft & drive arrangement and rear axles. The second includes torque converter, hydraulic control systems, gearboxes, automotive sensory systems, and electronic control systems. Prerequisites: Kinematics, Dynamics, System Dynamics and Control Systems.
4 1 MDE3002 Automotive Engineering Elective Major 3-3-0
The purpose of this course is to provide the fundamental principles of power plant, power transmission system, body and styling, running resistances, automotive electric system, and the analysis of perfomance characteristics of the vehicle. In order to promote the design and application ability, the automotive engineering emphasizes that theoretical analysis of system structure, performance characteristics, steering and stability, and the problems of environmental protection due to the exhaust emission of the automotive engines. Also it deals with the theory and practice of new energy vehicles such as electric car, hybrid vehicle, and the other alternative energy vehicles.
4 1 MDE4007 Gas Dynamics Elective Major 3-3-0
MDE407 Gas Dynamics 기체역학 The course begins with the basic aerodynamic concepts for the low subsonic flow speed,where the compressibility effect is negligible.The potential theory,Laplace's equation, 2-dimensional wing theory,numerical modeling and aerodynamic characteristics of finite wings,and vorteslattice method are taught.The major part of the course is on the compressible supersonic flow. 1-dimensional compressible flow, isentropic flow, 2-dimensional compressible flow, wave equation, shocks and expansion waves,interference and reflection of shock waves, method of characteristics,nozzle design,aerodynamic analysis and numerical modeling of 2-dimensional supersonic wings,and aerodynamics of wing-fuselage systems in supersonic flow are taught.
4 1 MEE3051 Mechanical Engineering Lab. 1 Compulsory Major 2-0-4
MEE351 Mechanical Engineering Lab. 1 Measurement of mechanical properties. experiment of column buckling, beam bending test, deflection and vibration test using strain gauge, measurement signal processing, precision measurement of displacement, measurement of crank and flywheel inertia moment, measurement of torsional frequency and vibration modes.
4 1 MEE4009 Machine Tools Elective Major 3-2-2
MEE409 Machine Tools (공작기계) Introduction to cutting, tools and tooling, grinding, non-traditional machining, and machine tools. Principles and techniques of material-removal processes, quality control and machines. Principles of accuracy, process planning, selection of optimum operating conditions, jigs and fixtures, and design and analysis of high-speed/precision servomechanisms. Application of bearings and sensors, and calibration of machine tools; design, analysis and manufacturing principles of high-speed/precision machine tools. Fundamentals of computer aided manufacturing(CAM), NC programming, and flexible manufacturing systems(FMS). Classroom and laboratory practice included. 3 credits, 2 class and 2 practice hours.
4 1 MEE4010 Mechanics of Machinery Elective Major 3-3-0
MEE410 Dynamics of Mechanism (기계역학) This course covers the dynamics of machines, which includes the forces acting on parts of a machine and the motions resulting from these forces. prerequisites are Kinematics of Machines and a Mechanics course in Statics and Dynamics. The course is concerned with the consequences of the proposed analysis. Graphical and analytical methods are used. Balancing of rotors and reciprocating machinery is treated as well.
4 1 MEE4019 Fluid Power Systems Elective Major 3-3-0
MEE419 Fluid Power Systems 유공압공학 An outline of the hydraulic and pneumatic apparatus;properties of hydraulic oil and air;fundamentals of fluid flow;working principles of hydraulic pumps,valves and actuators;working principles of air compressors,pneumatic valves and actuators;auxiliary components of hydraulic and pneumatic equiment;;various pneumatic and hydraulic circuits;introduction to logic algebra for sequence control.
4 1 MEE4029 Hvac Elective Major 3-3-0
MEE429 Heating Ventilating and Air Conditioning Explores the fundamentals of heating, ventilating, and air-conditioning (HVAC) systems. Discussion of psychrometrics, air conditioning processes, thermal comfort, indoor air quality and outdoor design conditions; concentration on the calculation of heating and cooling load in order to size suitable HVAC equipment; estimation of energy consumption of the HVAC equipment. Introduces plant engineering for mechanical engineeres.
4 1 MEE4034 Design of Control System Elective Major 3-3-0
MEE434 Control System Design Prerequisite: Automatic Control (ENE454) Design and Analysis of Control Systems, Design of a Control System using Control Software (MATLAB), Digital Control System Design, Real Time Control, Signal Processing, Filter Design, Control System Design Practice
4 1 MEE4079 Introduction to Aero Space Engineering Elective Major 3-3-0
The course provides the students the fundamental knowledge on Aerospace Engineering. In the beginning, the video tapes and CD's are used for the easy understanding of the historical background of aerospace development. And the basic design principle for the advanced aerospace vehicles of oncoming era will be discussed. A major introductory text will be used to study 1)Aerodynamics and Flight Mechanics, 2)Performance, Stability and Control, 3)Aircraft Structure and Airworthiness, 4)Aerospace Propulsion, 5)Avionics, 6)Flight Instrumentation, 7)Helicopters, 8)Astronautics and Satellites, 9)Aircraft Operation, 10)Conceptual Design of Aircrafts and Rockets, etc.
4 1 PME4007 Fundamental of Elasticity & Plasticity Elective Major 3-3-0
PME407 Mechanics of Elasto-Plasticity After having studied the Mechanics of Solids, the general elastic and plastic stress-strain systems of deformable bodies are studied in this course. Force and moment equilibrium equations, Cauchys equations, the transformation rules of stresses and strains, principal planes, compliance and constitutive relations, failure criterion, flow rules, elasto-plastic analysis method of solids, limit design of members, and plastic working examples are discussed.
4 1 PME4008 Optical Engineering Elective Major 3-3-0
Basic principles of optics, description of optical phenomena and their application to mechanical engineering: imaging by mirror and lens, mirror and lens equations, electro-magnetic characterizations of light, superposition of wave, interference and its applications to interferometry, holography and holographic interferometer, diffraction and Fourier optics, optical signal processing, and laser applications.
4 1 CSE4021 Robotics Extended Major 3-3-0
This course is offered to the seniors in the department of Mechanical Engineering and Electrical Engineering. It is strongly recommended for you to take this course if you want to work in the field of robotics, automatic control, and mechatronics. As a first introductory course in robotics, this course will concentrate mainly on robot manipulators, which are the base of other robotic systems, and cover basic principles in robotics such as coordinate frames, statics, (inverse and forward) kinematics, (inverse and forward) dynamics of robotics, manipulator Jacobian, singularity, redundancy, trajectory planning and basic control methods such as PD, PID, compliance control, and impedance control.
4 1 DME4027 NEXT GENERATION VEHICLES Extended Major 3-3-0
DME 427 NEXT GENERATION VEHICLES The purpose of this course is to provide the fundamental principles of power plant, power transmission system, body and styling, running resistances, automotive electric system, and the analysis of new energy vehicles(hybride and fuel cell vehicle). In order to promote the design and application ability, the this subject emphasizes that theoretical analysis of system structure, performance characteristics, steering and stability, and the problems of environmental protection due to the exhaust emission of the automotive engines. Also it deals with the theory and practice of new energy vehicles such as electric car, hybrid vehicle, fuel cell vehicles, and the other alternative energy vehicles.
4 1 ENE4041 Micro-Processor Applications Extended Major 3-2-2
ENE441 Micro-processor Applications 마이크로 프로세서 응용 Covers microprocessor structures including ALU,memory,and I/O devices and their operations;applications software in assembly language and C for targethardware ; embeddd systems;term projects of microprocessor applications involved.
4 1 MEE3051 Mechanical Engineering Lab. 1 Extended Major 2-0-4
MEE351 Mechanical Engineering Lab. 1 (기계공학실험1) Measurement of mechanical properties. experiment of column buckling, beam bending test, deflection and vibration test using strain gauge, measurement signal processing, precision measurement of displacement, measurement of crank and flywheel inertia moment, measurement of torsional frequency and vibration modes.
4 1 MEE4019 Fluid Power Systems Extended Major 3-3-0
MEE419 Fluid Power Systems 유공압공학 An outline of the hydraulic and pneumatic apparatus;properties of hydraulic oil and air;fundamentals of fluid flow;working principles of hydraulic pumps,valves and actuators;working principles of air compressors,pneumatic valves and actuators;auxiliary components of hydraulic and pneumatic equiment;;various pneumatic and hydraulic circuits;introduction to logic algebra for sequence control.
4 1 MEE4037 Thermal Power Plant Engineering Extended Major 3-3-0
MEE437 THERMAL POWER PLANT ENGINEERING Thermodynamics review, Rankine cycle and steam turbines; fuels and combustion, fossil-fuel steam generators, condensate-feedwater and circulating-water systems; combined cycles and gas turbines, principles of nuclear neergy, nuclear powerplants, general energy conversion systems, environmental aspects of power generation, alternative and new energy power oplant, and state-of-the-art technologies for clean energy.
4 1 MEE4083 Plant Engineering Extended Major 3-3-0
This subject is designed to help fill the information needs of plant engineers at all levels of knowledge to secure good performance of plant construction including good engineering practice, good construction practice and the technical coordination process thereof and also the way of standardization and systemization to enhance the productivity. The subject will provide the undergraduates with the technical information on the major engineering practices of mechanical, civil, electrical, chemical and architecture all of which are required for the plant construction. The subject will also provide the undergraduates, to understand detail methodology getting final thermal field in a plant utility as an example. Finally the subject will give the outline of successful completion of plant construction project in view of economics, efficiency and productivity, with the process of integration and cooperation of these different engineering disciplines and the good project management practice for the execution of engineering, procurement and construction work, which are the essential parts of plant construction projects.
4 1 MEE4085 MECHANICAL ENGINEERING DESIGN PROJECT 1 Extended Major 3-0-2
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4 1 MEE4087 Precision Machine Engineering Extended Major 3-3-0
1) Design and fabrication principles of precision machines. 2) Precision metrology and calibration of errors. 3) Capstone design of precision machines. 4) Precision motion control and mechatronics. 5) Case studies.
4 1 MME4058 Failure Analysis and Design Extended Major 3-3-0
The term failure can be defined as a deformation and/or fracture processes that are associated with a change of size, shape, and property of materials. In any types of engineering materials, mechanical behavior is closely related to its own material characteristics. Generally, failure processes of materials depend on micro structures, loading types, temperature and other environmental effects. It is, therefore important to understand how the materials really behavior under such conditions. Furthermore, for the case of high technology components, but for many others also, manufacturers require knowledge of hte consequences of failure analysis. This subject focusing on the above matters, and usually alternative approaches including analytical and experimental topics are employed to understand the modes of failure. Stress-strain in various deformation processes, creep, fracture, together with corresponding microstructural analysis will be given, particularly in engineering design viewpoints.
4 1 PME4008 Optical Engineering Extended Major 3-3-0
Basic principles of optics, description of optical phenomena and their application to mechanical engineering: imaging by mirror and lens, mirror and lens equations, electro-magnetic characterizations of light, superposition of wave, interference and its applications to interferometry, holography and holographic interferometer, diffraction and Fourier optics, optical signal processing, and laser applications.
4 1 TEA4008 Engineering Research and Guidance in Subject Matters Compulsory for Teacher Certification 2-2-0
The course is to evaluate recent engineering textbooks to be used in the most effective teaching materials and their applications to in-school-teaching as teachers.
4 1 DME4027 NEXT GENERATION VEHICLES Extended Major 3-3-0
NEXT GENERATION VEHICLES The purpose of this course is to provide the fundamental principles of power plant, power transmission system, body and styling, running resistances, automotive electric system, and the analysis of new energy vehicles(hybride and fuel cell vehicle). In order to promote the design and application ability, the this subject emphasizes that theoretical analysis of system structure, performance characteristics, steering and stability, and the problems of environmental protection due to the exhaust emission of the automotive engines. Also it deals with the theory and practice of new energy vehicles such as electric car, hybrid vehicle, fuel cell vehicles, and the other alternative energy vehicles.
4 1 DME4063 Applications of Mechanical Engineering 2 Extended Major 1-1-0
This course aims to develop the solid understanding of the applications of mechanical engineering for those who major in mechanical engineering. Students learn how to apply their knowledge to a variety of applications. Their knowledge includes thermodynamics, combustion, fluid mechanics, mechanics of materials, heat transfer, dynamics, control, vibration, optimum design, energy, nano, bio, MEMS, manufacturing and so on, and the applications include automobiles, airplanes, power plants, home appliances, robots, renewable energy, semiconductors, military, and bio industries.
4 1 DME4064 Numerical Analysis and Design of Heat and Fluid Flows Extended Major 2-1-2
This course consists of materials that assist students by means of design projects to understand key contents of Heat Transfer and Fluid Mechanics 1 and 2 provided in Department of Mechanical Engineering. Students learn how to analyze heat transfer and fluid flows and to design a thermal or fluid-flow system with a computational fluid dynamics software that numerically solves a set of continuity eqn., Navier-Stokes eqn., and energy eqn. In addition, they learn to extract physical meanings of numerical results obtained from the analysis and to assign a set of governing eqns and important conditions like intial or boundary conditions for a given heat and fluid flow. This course is designed for those who have taken Fluid Mechanics 1 and 2 and Heat Transfer.
4 1 DME4065 Multidisciplinary Mechanical System Design and Application Extended Major 2-1-2
The course provides basic principles and design program skills of multidisciplinary mechanical systems. - MEMS system design and application - Semiconductor system design and application - Electrochemical energy system design and application - Electrical and magnetic system design and application
4 1 ENE4041 Micro-Processor Applications Extended Major 3-2-2
Micro-processor Applications Covers microprocessor structures including ALU,memory,and I/O devices and their operations;applications software in assembly language and C for targethardware ; embeddd systems;term projects of microprocessor applications involved.
4 1 MDE4002 Turbo-Machinary Extended Major 3-3-0
In mechanical engineering, turbomachinery describes machines that transfer energy between a rotor and a fluid, including both turbines and compressors. While a turbine transfers energy from a fluid to a rotor, a compressor transfers energy from a rotor to a fluid. The two types of machines are governed by the same basic relationships including Newton's second law of motion and Euler's energy equation for compressible fluids. Therefore, we understand the basic concept and the classification of turbomachines. And we investigate the basic theory and the application division of turbomachines using in the power plant and the aircraft propulsion.
4 1 MEE3008 Robot Engineering Extended Major 3-3-0
As an introductory course in robotics, this course has its focus on robot manipulators, which are the base of other robotic systems, and covers basic principles in robotics such as coordinate frames, statics, (inverse and forward) kinematics, (inverse and forward) dynamics of robotics, manipulator Jacobian, singularity, redundancy, trajectory planning and basic control methods such as PD, PID, compliance control, and impedance control
4 1 MEE3051 Mechanical Engineering Lab. 1 Extended Major 2-0-4
Mechanical Engineering Lab. 1 Measurement of mechanical properties. experiment of column buckling, beam bending test, deflection and vibration test using strain gauge, measurement signal processing, precision measurement of displacement, measurement of crank and flywheel inertia moment, measurement of torsional frequency and vibration modes.
4 1 MEE4002 Combustion Engine Extended Major 3-3-0
Combustion Engine Introduction to internal combustion engine cycles,engine types and their operation,thermochemistry of fuel-air mixtures,engine performance and design. Analysis of spark ignition engines; fuel injection system,engine knock,exhaust emissions,engine characteristics,and lubrication analysis.Analysis of compression ignition engin: fuel injection system,diesel knock,combustion chamber,and performance. Alternative fuel engine: new energy and alternative engine analysis.
4 1 MEE4019 Fluid Power Systems Extended Major 3-3-0
This lecture deals with an outline of the hydraulic and pneumatic apparatus; properties of hydraulic oil and air; fundamentals of fluid flow; working principles of hydraulic pumps, valves and actuators; working principles of aircompressors, pneumatic valves and actuators; auxiliary components of hydraulic and pneumatic equipments; various pneumatic and hydraulic circuits for automated machineries; introduction to logic algebra for sequence control including PLC.
4 1 MEE4037 Thermal Power Plant Engineering Extended Major 3-3-0
THERMAL POWER PLANT ENGINEERING Thermodynamics review, Rankine cycle and steam turbines; fuels and combustion, fossil-fuel steam generators, condensate-feedwater and circulating-water systems; combined cycles and gas turbines, principles of nuclear neergy, nuclear powerplants, general energy conversion systems, environmental aspects of power generation, alternative and new energy power oplant, and state-of-the-art technologies for clean energy.
4 1 MEE4083 Plant Engineering Extended Major 3-3-0
This subject is designed to help fill the information needs of plant engineers at all levels of knowledge to secure good performance of plant construction including good engineering practice, good construction practice and the technical coordination process thereof and also the way of standardization and systemization to enhance the productivity. The subject will provide the undergraduates with the technical information on the major engineering practices of mechanical, civil, electrical, chemical and architecture all of which are required for the plant construction. The subject will also provide the undergraduates, to understand detail methodology getting final thermal field in a plant utility as an example. Finally the subject will give the outline of successful completion of plant construction project in view of economics, efficiency and productivity, with the process of integration and cooperation of these different engineering disciplines and the good project management practice for the execution of engineering, procurement and construction work, which are the essential parts of plant construction projects.
4 1 MEE4085 MECHANICAL ENGINEERING DESIGN PROJECT 1 Extended Major 3-0-2
.
4 1 MEE4087 Precision Machine Engineering Extended Major 3-3-0
1) Design and fabrication principles of precision machines. 2) Precision metrology and calibration of errors. 3) Capstone design of precision machines. 4) Precision motion control and mechatronics. 5) Case studies.
4 1 SYH0004 SELF-LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
HELP(Hanyang Essential Leadership Plus) is a key program of Hanyang University for educating students who want to be future CEOs. Self Leadership(HELP4) is a leadership development online program for seniors. This program aims to foster leaders based on an analysis of an individual's strengths and weaknesses and complete the Leadership Road Map. Learning contents of Self Leardership(HELP4) incluse Self-Assessment, Self-Management and Skills to apply in Social Practices. Learning objectives of each module are as follows; Self-Assessment: Grade value of the work to do and decide priority, understand importance and meaning of manners and improve manners in social life, and understand attitudes associated with success and put them into practice. Skills to Apply in Social Practice: Define followership, understand the principles of imagination and creativity. This 16 week length course had been developed by the high-tech teaching system and online course development methods.
4 1 TEA4008 Engineering Research and Guidance in Subject Matters Compulsory for Teacher Certification 2-2-0
In this course the contents and material of recent engineering textbooks are analyzed and the construction principle of engineering textbooks according to the 7th curriculum is investigated. The constitutional method of teaching materials is studied and the ability of application and variation of teaching materials is cultivated. Moreover, the purpose, contents, organization and strategies of the engineering education to be taught in junior and senior high schools are widely discussed.
4 1 TEA6008 Engineering Research and Guidance in Subject Matters --Major for Teacher Certifica-- 3-3-0
In this course the contents and material of recent engineering textbooks are analyzed and the construction principle of engineering textbooks according to the 7th curriculum is investigated. The constitutional method of teaching materials is studied and the ability of application and variation of teaching materials is cultivated. Moreover, the purpose, contents, organization and strategies of the engineering education to be taught in junior and senior high schools are widely discussed.
4 1 DME2008 Computer-Aided Geometric Modeling Core Major 3-2-2
This course introduces the basic mathematics and algorithms relevant to CAD(Computer-Aided Design). In addition it helps students to understand the state-of-the-art of the CAD technology and its potential for mechanical design. The course focuses on wire-frame, surface and solid models and their data structures. Also it covers descriptive geometry for students to understand the 2D drawings. The lab classes using CAD systems begin with basic 2D drawing techniques which are later used as 3D modeling input schemes. Feature-based and parametric modeling techniques using geometric constraints are mainly practiced during the lab classes for modeling mechanical parts. A commercial CAD system, CATIA, is available in the lab. The course will be useful for the students interested in mechanical design, computer graphic, 3D geometric modeling and/or animation.
4 1 DME3009 DESIGN OPTIMIZATION Extended Major 3-3-0
Finding the best design with the available means is the goal of design optimization. This course applies optimization techniques to engineering design problems. Emphasis will be given to the interaction between mathematical modeling including problem formulation of engineering design problems and computations. Problems will be solved using mathematical programming methods including linear programming, sequential linear programming, random search, and gradient based search techniques.
4 1 DME4027 NEXT GENERATION VEHICLES Extended Major 3-3-0
NEXT GENERATION VEHICLES The purpose of this course is to provide the fundamental principles of power plant, power transmission system, body and styling, running resistances, automotive electric system, and the analysis of new energy vehicles(hybride and fuel cell vehicle). In order to promote the design and application ability, the this subject emphasizes that theoretical analysis of system structure, performance characteristics, steering and stability, and the problems of environmental protection due to the exhaust emission of the automotive engines. Also it deals with the theory and practice of new energy vehicles such as electric car, hybrid vehicle, fuel cell vehicles, and the other alternative energy vehicles.
4 1 DME4061 MACHINE DESIGN AND FABRICATION Core Major 2-0-4
High-precision machines require perfect kinematic references. A perfect kinematic pair generates a perfect movement in concordance with the reference. To achieve smooth motion, linear and rotational guide units are required. Fixing and joining units are indispensable for machine assembly as well. In this course, students create their own design ideas, and fabricate the product including the above units through mechanical drawing with tolerance, machining processes (turning, milling, drilling, grinding, etc.), mechanical measurement, etc. Design for manufacture is educated through the practice and fabrication process of the product.
4 1 DME4063 Applications of Mechanical Engineering 2 Extended Major 1-1-0
This course aims to develop the solid understanding of the applications of mechanical engineering for those who major in mechanical engineering. Students learn how to apply their knowledge to a variety of applications. Their knowledge includes thermodynamics, combustion, fluid mechanics, mechanics of materials, heat transfer, dynamics, control, vibration, optimum design, energy, nano, bio, MEMS, manufacturing and so on, and the applications include automobiles, airplanes, power plants, home appliances, robots, renewable energy, semiconductors, military, and bio industries.
4 1 DME4064 Numerical Analysis and Design of Heat and Fluid Flows Extended Major 2-1-2
This course consists of materials that assist students by means of design projects to understand key contents of Heat Transfer and Fluid Mechanics 1 and 2 provided in Department of Mechanical Engineering. Students learn how to analyze heat transfer and fluid flows and to design a thermal or fluid-flow system with a computational fluid dynamics software that numerically solves a set of continuity eqn., Navier-Stokes eqn., and energy eqn. In addition, they learn to extract physical meanings of numerical results obtained from the analysis and to assign a set of governing eqns and important conditions like intial or boundary conditions for a given heat and fluid flow. This course is designed for those who have taken Fluid Mechanics 1 and 2 and Heat Transfer.
4 1 DME4065 Multidisciplinary Mechanical System Design Extended Major 2-1-2
The course provides basic principles and design program skills of multidisciplinary mechanical systems. - MEMS system design and application - Semiconductor system design and application - Electrochemical energy system design and application - Electrical and magnetic system design and application
4 1 ENE4041 Micro-Processor Applications Extended Major 3-2-2
Micro-processor Applications Covers microprocessor structures including ALU,memory,and I/O devices and their operations;applications software in assembly language and C for targethardware ; embeddd systems;term projects of microprocessor applications involved.
4 1 ENE4054 Automatic Control Core Major 3-3-0
Automatic Control Introduction to feedback control systems; characteristics of control system response, stability analysis in time and frequency domain; root locus analysis, frequency response analysis, compensation methods of control system, and introduction to modern control theory.
4 1 MDE4002 Turbo-Machinary Extended Major 3-3-0
In mechanical engineering, turbomachinery describes machines that transfer energy between a rotor and a fluid, including both turbines and compressors. While a turbine transfers energy from a fluid to a rotor, a compressor transfers energy from a rotor to a fluid. The two types of machines are governed by the same basic relationships including Newton's second law of motion and Euler's energy equation for compressible fluids. Therefore, we understand the basic concept and the classification of turbomachines. And we investigate the basic theory and the application division of turbomachines using in the power plant and the aircraft propulsion.
4 1 MEE3008 Robot Engineering Extended Major 3-3-0
As an introductory course in robotics, this course has its focus on robot manipulators, which are the base of other robotic systems, and covers basic principles in robotics such as coordinate frames, statics, (inverse and forward) kinematics, (inverse and forward) dynamics of robotics, manipulator Jacobian, singularity, redundancy, trajectory planning and basic control methods such as PD, PID, compliance control, and impedance control
4 1 MEE3051 Mechanical Engineering Lab. 1 Extended Major 2-0-4
Mechanical Engineering Lab. 1 Measurement of mechanical properties. experiment of column buckling, beam bending test, deflection and vibration test using strain gauge, measurement signal processing, precision measurement of displacement, measurement of crank and flywheel inertia moment, measurement of torsional frequency and vibration modes.
4 1 MEE4002 Combustion Engine Extended Major 3-3-0
Combustion Engine Introduction to internal combustion engine cycles,engine types and their operation,thermochemistry of fuel-air mixtures,engine performance and design. Analysis of spark ignition engines; fuel injection system,engine knock,exhaust emissions,engine characteristics,and lubrication analysis.Analysis of compression ignition engin: fuel injection system,diesel knock,combustion chamber,and performance. Alternative fuel engine: new energy and alternative engine analysis.
4 1 MEE4019 Fluid Power Systems Extended Major 3-3-0
This lecture deals with an outline of the hydraulic and pneumatic apparatus; properties of hydraulic oil and air; fundamentals of fluid flow; working principles of hydraulic pumps, valves and actuators; working principles of aircompressors, pneumatic valves and actuators; auxiliary components of hydraulic and pneumatic equipments; various pneumatic and hydraulic circuits for automated machineries; introduction to logic algebra for sequence control including PLC.
4 1 MEE4037 Thermal Power Plant Engineering Extended Major 3-3-0
THERMAL POWER PLANT ENGINEERING Thermodynamics review, Rankine cycle and steam turbines; fuels and combustion, fossil-fuel steam generators, condensate-feedwater and circulating-water systems; combined cycles and gas turbines, principles of nuclear neergy, nuclear powerplants, general energy conversion systems, environmental aspects of power generation, alternative and new energy power oplant, and state-of-the-art technologies for clean energy.
4 1 MEE4083 Plant Engineering Extended Major 3-3-0
This subject is designed to help fill the information needs of plant engineers at all levels of knowledge to secure good performance of plant construction including good engineering practice, good construction practice and the technical coordination process thereof and also the way of standardization and systemization to enhance the productivity. The subject will provide the undergraduates with the technical information on the major engineering practices of mechanical, civil, electrical, chemical and architecture all of which are required for the plant construction. The subject will also provide the undergraduates, to understand detail methodology getting final thermal field in a plant utility as an example. Finally the subject will give the outline of successful completion of plant construction project in view of economics, efficiency and productivity, with the process of integration and cooperation of these different engineering disciplines and the good project management practice for the execution of engineering, procurement and construction work, which are the essential parts of plant construction projects.
4 1 MEE4085 MECHANICAL ENGINEERING DESIGN PROJECT 1 Extended Major 3-0-3
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4 1 MEE4087 Precision Machine Engineering Extended Major 3-3-0
1) Design and fabrication principles of precision machines. 2) Precision metrology and calibration of errors. 3) Capstone design of precision machines. 4) Precision motion control and mechatronics. 5) Case studies.
4 1 MME4058 Failure Analysis and Design Extended Major 3-3-0
The term failure can be defined as a deformation and/or fracture processes that are associated with a change of size, shape, and property of materials. In any types of engineering materials, mechanical behavior is closely related to its own material characteristics. Generally, failure processes of materials depend on micro structures, loading types, temperature and other environmental effects. It is, therefore important to understand how the materials really behavior under such conditions. Furthermore, for the case of high technology components, but for many others also, manufacturers require knowledge of hte consequences of failure analysis. This subject focusing on the above matters, and usually alternative approaches including analytical and experimental topics are employed to understand the modes of failure. Stress-strain in various deformation processes, creep, fracture, together with corresponding microstructural analysis will be given, particularly in engineering design viewpoints.
4 1 SYH0004 SELF-LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
SELP Leadership(HELP4) program will give students chances to look back on themselves before they enter society and to analyze their advantages and weak points to complete the road map for leadership development. This class trains prepared leaders based on analysis of personal strengths and weaknesses and helps them to complete the Leadership Road Map.
4 1 TEA6008 Engineering Research and Guidance in Subject Matters --Major for Teacher Certifica-- 3-3-0
In this course the contents and material of recent engineering textbooks are analyzed and the construction principle of engineering textbooks according to the 7th curriculum is investigated. The constitutional method of teaching materials is studied and the ability of application and variation of teaching materials is cultivated. Moreover, the purpose, contents, organization and strategies of the engineering education to be taught in junior and senior high schools are widely discussed.
4 1 DME3009 DESIGN OPTIMIZATION Extended Major 3-3-0
Finding the best design with the available means is the goal of design optimization. This course applies optimization techniques to engineering design problems. Emphasis will be given to the interaction between mathematical modeling including problem formulation of engineering design problems and computations. Problems will be solved using mathematical programming methods including linear programming, sequential linear programming, random search, and gradient based search techniques.
4 1 DME4063 Applications of Mechanical Engineering 2 Extended Major 1-1-0
This course aims to develop the solid understanding of the applications of mechanical engineering for those who major in mechanical engineering. Students learn how to apply their knowledge to a variety of applications. Their knowledge includes thermodynamics, combustion, fluid mechanics, mechanics of materials, heat transfer, dynamics, control, vibration, optimum design, energy, nano, bio, MEMS, manufacturing and so on, and the applications include automobiles, airplanes, power plants, home appliances, robots, renewable energy, semiconductors, military, and bio industries.
4 1 DME4064 Numerical Analysis and Design of Heat and Fluid Flows Extended Major 3-1-4
This course consists of materials that assist students by means of design projects to understand key contents of Heat Transfer and Fluid Mechanics 1 and 2 provided in Department of Mechanical Engineering. Students learn how to analyze heat transfer and fluid flows and to design a thermal or fluid-flow system with a computational fluid dynamics software that numerically solves a set of continuity eqn., Navier-Stokes eqn., and energy eqn. In addition, they learn to extract physical meanings of numerical results obtained from the analysis and to assign a set of governing eqns and important conditions like intial or boundary conditions for a given heat and fluid flow. This course is designed for those who have taken Fluid Mechanics 1 and 2 and Heat Transfer.
4 1 DME4065 Multidisciplinary Mechanical System Design Extended Major 3-1-4
The course provides basic principles and design program skills of multidisciplinary mechanical systems. - MEMS system design and application - Semiconductor system design and application - Electrochemical energy system design and application - Electrical and magnetic system design and application
4 1 DME4066 Thermo and Fluid Engineering Lab. 2 Extended Major 2-0-4
4 1 DME4067 Dynamics and Control Lab. 2 Extended Major 2-0-4
4 1 DME4068 Material and Manufacturing Lab. 2 Extended Major 2-0-4
4 1 DME4070 Fundamentals of mechanics for composite materials Extended Major 3-3-0
Since a composite material has high specific stiffness and high specific strength, it has been widely used in various structural applications such as airplane, automobile vehicle, infrastructure, spaceship and machine tool structure. Especially, recently, owing to the increasing fuel efficiency regulation, the weight of the automobile should be reduced. Therefore, understanding of the mechanical behavious of the anistropic composite materials are needed. In this course, the classical laminate plate theory, composite failure model, micro-mechanics of the short fiber composite materials will be studied.
4 1 ENE4054 Automatic Control Extended Major 3-3-0
Automatic Control Introduction to feedback control systems; characteristics of control system response, stability analysis in time and frequency domain; root locus analysis, frequency response analysis, compensation methods of control system, and introduction to modern control theory.
4 1 MEE4085 MECHANICAL ENGINEERING DESIGN PROJECT 1 Core Major 3-0-3
.
4 1 SYH0004 SELF-LEADERSHIP Compulsory General Studies 2-2-0
HELP(Hanyang Essential Leadership Plus) is a key program of Hanyang University for educating students who want to be future CEOs. Self Leadership(HELP4) is a leadership development online program for seniors. This program aims to foster leaders based on an analysis of an individual's strengths and weaknesses and complete the Leadership Road Map. Learning contents of Self Leardership(HELP4) incluse Self-Assessment, Self-Management and Skills to apply in Social Practices. Learning objectives of each module are as follows; Self-Assessment: Grade value of the work to do and decide priority, understand importance and meaning of manners and improve manners in social life, and understand attitudes associated with success and put them into practice. Skills to Apply in Social Practice: Define followership, understand the principles of imagination and creativity. This 16 week length course had been developed by the high-tech teaching system and online course development methods.
4 1 TEA6008 Engineering Research and Guidance in Subject Matters --Major for Teacher Certifica-- 3-3-0
In this course the contents and material of recent engineering textbooks are analyzed and the construction principle of engineering textbooks according to the 7th curriculum is investigated. The constitutional method of teaching materials is studied and the ability of application and variation of teaching materials is cultivated. Moreover, the purpose, contents, organization and strategies of the engineering education to be taught in junior and senior high schools are widely discussed.
4 2 COE1015 Practical Engineering Research Initiative 6 Elective Major 1-0-2
In this course, students can participate in research projects of professors. Student who chose one projects among others proposed by teacher makes his/her own specified proposal for the study, then do the research during the term. Students will present his research result at the end of the term. The course stresses creative thinking and research exprience. The course opens to shopomores to Juniors and can be taken no more than 4 terms. Achievement of the class is evaluated with Pass or Fail.
4 2 DME4003 Mechanical Behavior of Materials Elective Major 3-3-0
Dme403 Mechanical Behavior of Materials 재료거동학 Introduces mechanical behavior of engineering materials connected withe deformation and failure,fracture and fatigue.Topics;structure and deformation in materials,stress-strain equations and models linear elastic fracture mechanics,elastic-plastic fracture,fatigue and fatigue crack growth,and fracture of composites.
4 2 DME4017 Mechanical System Design Elective Major 3-3-0
Dme417 Mechanical System Design 기계시스템 설계 This course is offered for senior students who have taken the basic engineering science and mechanical engineering core courses.The objective of this course is to provide students with the ability to analyze mechanical systems and synthesizing components needed to complete given system design projects.The contents include the engineering design process,mathematical modeling,simulation,and optimization techniques.Also,the aspects of material selection,economic factors,reliability and safety issues are discussed.Students will complete a design project during the semester and present it in cass.
4 2 DME4018 Introduction to Finite Element Analysis Elective Major 3-3-0
Deformation, stress and dynamic characteristics of complex machine structures are generally analyzed by the finite element method. In this course, the basic concepts of the finite element method, formulation methods, element classification and its characteristics, modeling techniques of structures, effective usage of package programs and the design application methods of analysis results are studied through the lecture and the practice.
4 2 INE4007 Industrial Hygiene & Safety Management Elective Major 3-3-0
The course deals with safety engineering principles and industrial hygiene-related subject issues under computer environments Major issues include perspectives of safety legislative regulations as well as major safety-related principles including: accident causation models, hazard identification models, human errors and human factors, systems safety, hazard control, material handling, and computer safeguarding.
4 2 MDE4003 Vehicle Body Analysis & Design Elective Major 3-2-2
The burglar regarding a body structure, malleability and body efficiency it will use the computer and simulation the place where it does with the fundamental knowledge which is necessary like this interpretation law will be yelled and is how applied it finds the fact that with subject contents.
4 2 MDE4005 Automotive Electronics & Control Elective Major 3-2-2
The purpose of this course is to provide the fundamental principles of power plant, power transmission system, body and styling, running resistances, automotive electric system, and the analysis of perfomance characteristics of the vehicle. In order to promote the design and application ability, the automotive engineering emphasizes that theoretical analysis of system structure, performance characteristics, steering and stability, and the problems of environmental protection due to the exhaust emission of the automotive engines. Also it deals with the theory and practice of new energy vehicles such as electric car, hybrid vehicle, and the other alternative energy vehicles.
4 2 MDE4007 Gas Dynamics Elective Major 3-3-0
MDE407 Gas Dynamics 기체역학 The course begins with the basic aerodynamic concepts for the low subsonic flow speed,where the compressibility effect is negligible.The potential theory,Laplace's equation, 2-dimensional wing theory,numerical modeling and aerodynamic characteristics of finite wings,and vorteslattice method are taught.The major part of the course is on the compressible supersonic flow. 1-dimensional compressible flow, isentropic flow, 2-dimensional compressible flow, wave equation, shocks and expansion waves,interference and reflection of shock waves, method of characteristics,nozzle design,aerodynamic analysis and numerical modeling of 2-dimensional supersonic wings,and aerodynamics of wing-fuselage systems in supersonic flow are taught
4 2 MDE4008 Aircraft Structure & Design Elective Major 3-3-0
It introduces the general contents of aerospace engineering it treats the contents and a basic objection and an application of 4 branch major field of study of aerodynamics, misconduct epidemiology, structure epidemiology and power drive with the process for. And, video audiovisual education it leads and against an aircraft advancement company it understands, the basic plan concept against the up-to-date aircraft of future it understands.
4 2 MEE3008 Robot Engineering Elective Major 3-3-0
MEE308 ROBOT ENGINEERING As an introductory course in robotics, this course has its focus on robot manipulators, which are the base of other robotic systems, and covers basic principles in robotics such as coordinate frames, statics, (inverse and forward) kinematics, (inverse and forward) dynamics of robotics, manipulator Jacobian, singularity, redundancy, trajectory planning and basic control methods such as PD, PID, compliance control, and impedance control
4 2 MEE4023 Power Plant Engineering Elective Major 3-3-0
Thermodynamics cyclone, the fume and gas power cycle, principal and plan, nuclear energy and atomic generation of chemical balanced objection, fundamental combustion objection and the turbine, against the general energy transformation engineering technique which includes the environmental contamination back due to a power development it lectures.
4 2 MEE4025 Thermal System Simulation Elective Major 3-3-0
MEE425 Design of Thermal Systems 열계통설계 Basic concepts for CFD,computation of conduction and duct flow,numerical scheme and its implementation;introduction of invariant part, examples of adaptation part turbulent duct flow heat transfer,and Non-Newtonian duct flow.
4 2 MEE4033 Turbomachinery Design Elective Major 3-3-0
Course deals with fundamentals of the fluid mechanics and thermodynamics of turbo-machinery with emphasis on fans,including cycles, components and component-matching. Behavior and design of compressors, turbines and pumps. Upon successful completion of course, students will be able to evaluate the performance of turbo-machinery and design and optimize component and system performance.
4 2 PME3009 Theory of Forming Elective Major 3-3-0
With yield criteria of the material the law which flows, it will lecture a strain stiffening law and it will reach and the multi branch metallicity elder brother whom it uses a rolling condition and the limit characteristic and monotone, it treats.
4 2 PME4052 Precision Machining Processes Elective Major 3-3-0
It treats the general fact regarding a candle precise processing. phul cu E processing, supersonic waves processing and the electron beam machining most regarding the laser which will receive a footlights in strong will but specially 21 century it lectures the back intensively.
4 2 COE1015 Practical Engineering Research Initiative 6 Elective Major 1-0-2
4 2 DME4003 Mechanical Behavior of Materials Elective Major 3-3-0
Dme403 Mechanical Behavior of Materials 재료거동학 Introduces mechanical behavior of engineering materials connected withe deformation and failure,fracture and fatigue.Topics;structure and deformation in materials,stress-strain equations and models linear elastic fracture mechanics,elastic-plastic fracture,fatigue and fatigue crack growth,and fracture of composites.
4 2 DME4004 Mechanical Engineering Projects Compulsory Major 2-1-2
DME404 Integrated Design Project In this course, system design projects utilizing the knowledge of several mechanical engineering principles and analysis methods are executed by class students. The contents of the project are determined by discussion between students and advising professors. Each student or a group of students can submit plans for the project. He (she) or they are supposed to have regular meetings with the advisors where discussions are made. Final presentations are made and the final reports are submitted for the projects.
4 2 DME4010 Automation of Manufacturing Systems Elective Major 3-3-0
DME410 Automation of Manufacturing Systems Design,modeling,analysis and control of manufacturing systems.Analytical and experimental techniques of general imporance in engineering measurement problems.System components and their operation of electromechanical systems.Architecture of manufacturing automation systems,data acquisition,logic design and analysis, I/O structure and interfacing,serial and parallel communications,and application of programmable logic controllers(PLC). Concepts of feedback control theory as applied to servomechanisms(CNC, machine tools,robots,etc).Digital and adaptive control theory and analysis are also applied to manufacturing systems.Case studies for computer control of manufacturing processes; machining, assembly, forming and welding. 3 credits.
4 2 DME4017 Mechanical System Design Elective Major 3-3-0
DME417 Mechanical System Design This course is offered for senior students who have taken the basic engineering science and mechanical engineering core courses.The objective of this course is to provide students with the ability to analyze mechanical systems and synthesizing components needed to complete given system design projects.The contents include the engineering design process,mathematical modeling,simulation,and optimization techniques.Also,the aspects of material selection,economic factors,reliability and safety issues are discussed.Students will complete a design project during the semester and present it in cass.
4 2 ENE4041 Micro-Processor Applications Elective Major 3-2-2
ENE441 Micro-processor Applications 마이크로 프로세서 응용 Covers microprocessor structures including ALU,memory,and I/O devices and their operations;applications software in assembly language and C for targethardware ; embeddd systems;term projects of microprocessor applications involved.
4 2 MEE3008 Robot Engineering Elective Major 3-3-0
MEE308 ROBOT ENGINEERING As an introductory course in robotics, this course has its focus on robot manipulators, which are the base of other robotic systems, and covers basic principles in robotics such as coordinate frames, statics, (inverse and forward) kinematics, (inverse and forward) dynamics of robotics, manipulator Jacobian, singularity, redundancy, trajectory planning and basic control methods such as PD, PID, compliance control, and impedance control
4 2 MEE3052 Mechanical Engineering Lab. 2 Compulsory Major 2-0-4
MEE352 Mechanical Engineering Lab 2 Basic measurement techniques in internal combusution engines; performance tests for gasoline and diesel engines,compressor and nozzle tests,steam boiler performance tests,measurement of physical properties,measurement of pressure distribution in a flowfield,flow visualization,and performances test for pump and blower.
4 2 MEE4002 Combustion Engine Elective Major 3-3-0
MEE402 Combustion Engine 연소기관 Introduction to internal combustion engine cycles,engine types and their operation,thermochemistry of fuel-air mixtures,engine performance.Analysis of spark ignition engines;carburetion, fuel injection system,engine knock,exhaust emissions,engine characteristics,and lubrication analysis.Analysis of compression ignition engin: fuel injection system,diesel knock,combustion chamber,and performance.Convectional and alternative fuels used in combustion engines.
4 2 MEE4004 Turbomachinery Elective Major 3-3-0
MEE404 Turbo Machinery Course deals with fundamentals of the fluid mechanics and thermodynamics of turbo-machinery with emphasis on fans,including cycles, components and component-matching. Behavior and design of compressors, turbines and pumps. Upon successful completion of course, students will be able to evaluate the performance of turbo-machinery and design and optimize component and system performance.
4 2 MEE4025 Thermal System Simulation Elective Major 3-3-0
MEE425 Design of Thermal Systems 열계통설계 Basic concepts for CFD,computation of conduction and duct flow,numerical scheme and its implementation;introduction of invariant part, examples of adaptation part turbulent duct flow heat transfer,and Non-Newtonian duct flow.
4 2 MEE4035 Vehicle Dynamics System Elective Major 3-3-0
MEE435 VEHICLE DYNAMICS SYSTEM (차량동력학시스템) Prerquisites: Kinematics, Dynamics. System Analysis and Control Systems. This course will emphasize procedures for analysis, control and prediction of vehicle performance. Topics to be covered are:(1) fundamentals of vehicle dynamic characteristics and control; (2) modeling and analysis of suspensions. steering systems, powertrains. brake systems and engine dynamics;(3) tire model and dynamics. also. vehicle dynamic performance.
4 2 MEE4036 Finite Element Analysis Elective Major 3-2-2
MEE 436 Finite Element Analysis Deformation, stress and dynamic characteristics of complex machine structures are generally analyzed by the finite element method. In this course, the basic concepts of the finite element method, formulation methods, element classification and its characteristics, modeling techniques of structures, effective usage of package programs and the design application methods of analysis results are studied through the lecture and the practice.
4 2 MEE4037 Thermal Power Plant Engineering Elective Major 3-3-0
MEE437 THERMAL POWER PLANT ENGINEERING (열동력공학) Thermodynamics review, Rankine cycle and steam turbines; fuels and combustion, fossil-fuel steam generators, condensate-feedwater and circulating-water systems; combined cycles and gas turbines, principles of nuclear neergy, nuclear powerplants, general energy conversion systems, environmental aspects of power generation, and state-of-the-art technologies for clean energy.
4 2 MEE4038 Computational Fluid Engineering Elective Major 3-3-0
MEE438 Computational Fluid Dynamics This course introduces Computational Fluid Dynamics(CFD). CFD is the science of determining a numerical solution to the governing equations of fluid flow while advancing the solution through space or time to obtain a numerical description of the complete flow field of interest. We solve this lecture for 1D incompressible flow problem and deal with initial, boundary condition.
4 2 MEE4083 Plant Engineering Elective Major 3-3-0
This subject is designed to help fill the information needs of plant engineers at all levels of knowledge to secure good performance of plant construction including good engineering practice, good construction practice and the technical coordination process thereof and also the way of standardization and systemization to enhance the productivity. The subject will provide the undergraduates with the technical information on the major engineering practices of mechanical, civil, electrical, chemical and architecture all of which are required for the plant construction. The subject will also provide the undergraduates, to understand detail methodology getting final thermal field in a plant utility as an example. Finally the subject will give the outline of successful completion of plant construction project in view of economics, efficiency and productivity, with the process of integration and cooperation of these different engineering disciplines and the good project management practice for the execution of engineering, procurement and construction work, which are the essential parts of plant construction projects.
4 2 AUE4011 Combustion Engineering Extended Major 3-3-0
AUE411 Combustion Engineering (연소공학) Chemical equilibrium, chemical kinetics, and governing equations in chemically reacting flows; detonation and deflagration waves; premixed and diffusion flames, calculation of flame speed, ignition and extinction, droplet vaporization and combustion; pollutant formation mechanism, and combustion measurement techniques.
4 2 COE1022 CAPSTONE DESIGN 2 Extended Major 3-0-2
In this course, system design projects utilizing the knowledge of several mechanical engineering principles and analysis methods are executed by class students. The contents of the project are determined by discussion between students and advising professors. Each student or a group of students can submit plans for the project. He (she) or they are supposed to have regular meetings with the advisors where discussions are made. Final presentations are made and the final reports are submitted for the projects.
4 2 DME4010 Automation of Manufacturing Systems Extended Major 3-3-0
DME410 Automation of Manufacturing Systems 생산자동화 Design,modeling,analysis and control of manufacturing systems.Analytical and experimental techniques of general imporance in engineering measurement problems.System components and their operation of electromechanical systems.Architecture of manufacturing automation systems,data acquisition,logic design and analysis, I/O structure and interfacing,serial and parallel communications,and application of programmable logic controllers(PLC). Concepts of feedback control theory as applied to servomechani는(CNC, machine tools,robots,etc).Digital and adaptive control theory and analysis are also applied to manufacturing systems.Case studies for computer control of manufacturing processes; machining, assembly, forming and welding. 3 credits.
4 2 DME4023 NOISE CONTROL Extended Major 3-3-0
Understanding the sound generating mechanisms from various noise sources and the sound transmission through different layers of materials, and consequent perception of noise by human is an important engineering problem. In this course, basic concepts to understand the noise generations from many different sources are discussed. Students will study various theoretical and experimental methods to understand noise generating mechanisms from vibration of products and sound transmissions. The influence of noise on community and the standard method to define and measure noise sources are discussed. Various methods to reduce noise generations such as mufflers, vibration absorber, damping materials, and noise barriers are discussed. Also, the noise generations in industrial and residential environments are discussed.
4 2 DME4025 VEHICLE POWER SYSTEM Extended Major 3-3-0
This course studies the powerflow of the vehicle powertrain(from engine to driving wheel). The mechanisms and control systems of the vehicles equipped with M/T, A/T, 4WD, hybrid and SUV are covered. The vehicle dynamics will be also covered to understand the behavior of those mentioned vehicles.
4 2 DME4026 DIGITAL FORMING Extended Major 3-3-0
Firstly, this course reviews the stress-strain relationship in mechanics of materials. And we confirm this relationship in elasticity and plasticity. Also, focus on manufacturing technology (forging, rolling, extrusion, drawing, stamping etc.) using the plastic behavior of materials, digital measuring instruments and computer aided manufacturing.
4 2 MEE3052 Mechanical Engineering Lab. 2 Extended Major 2-0-4
MEE352 Mechanical Engineering Lab 2 기계공학실험2 Basic measurement techniques in internal combusution engines; performance tests for gasoline and diesel engines,compressor and nozzle tests,steam boiler performance tests,measurement of physical properties,measurement of pressure distribution in a flowfield,flow visualization,and performances test for pump and blower.
4 2 MEE4004 Turbomachinery Extended Major 3-3-0
MEE404 Turbo Machinery Course deals with fundamentals of the fluid mechanics and thermodynamics of turbo-machinery with emphasis on fans,including cycles, components and component-matching. Behavior and design of compressors, turbines and pumps. Upon successful completion of course, students will be able to evaluate the performance of turbo-machinery and design and optimize component and system performance.
4 2 MEE4029 Hvac Extended Major 3-3-0
MEE429 Heating Ventilating and Air Conditioning Explores the fundamentals of heating, ventilating, and air-conditioning (HVAC) systems. Discussion of psychrometrics, air conditioning processes, thermal comfort, indoor air quality and outdoor design conditions; concentration on the calculation of heating and cooling load in order to size suitable HVAC equipment; estimation of energy consumption of the HVAC equipment. Introduces plant engineering for mechanical engineeres.
4 2 MEE4035 Vehicle Dynamics System Extended Major 3-3-0
MEE435 VEHICLE DYNAMICS SYSTEM (차량동력학시스템) Prerquisites: Kinematics, Dynamics. System Analysis and Control Systems. This course will emphasize procedures for analysis, control and prediction of vehicle performance. Topics to be covered are:(1) fundamentals of vehicle dynamic characteristics and control; (2) modeling and analysis of suspensions. steering systems, powertrains. brake systems and engine dynamics;(3) tire model and dynamics. also. vehicle dynamic performance.
4 2 MEE4036 Finite Element Analysis Extended Major 3-2-2
MEE 436 Finite Element Analysis Deformation, stress and dynamic characteristics of complex machine structures are generally analyzed by the finite element method. In this course, the basic concepts of the finite element method, formulation methods, element classification and its characteristics, modeling techniques of structures, effective usage of package programs and the design application methods of analysis results are studied through the lecture and the practice.
4 2 MEE4079 Introduction to Aero Space Engineering Extended Major 3-3-0
The course provides the students the fundamental knowledge on Aerospace Engineering. In the beginning, the video tapes and CD's are used for the easy understanding of the historical background of aerospace development. And the basic design principle for the advanced aerospace vehicles of oncoming era will be discussed. A major introductory text will be used to study 1)Aerodynamics and Flight Mechanics, 2)Performance, Stability and Control, 3)Aircraft Structure and Airworthiness, 4)Aerospace Propulsion, 5)Avionics, 6)Flight Instrumentation, 7)Helicopters, 8)Astronautics and Satellites, 9)Aircraft Operation, 10)Conceptual Design of Aircrafts and Rockets, etc.
4 2 MEE4086 MECHANICAL ENGINEERING DESIGN PROJECT 2 Extended Major 3-0-2
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4 2 MEE4088 Introduction to semiconductor and microelectro mechanical system process Extended Major 3-3-0
This lecture will cover the processing techniques and design methodologies of microfabrication. We will discuss the process modules: lithography, thermal oxidation, diffusion, ion implantation, etching, thin-film deposition, epitaxy, metallization, MEMS process integration.
4 2 AUE4011 Compputational Combustion Extended Major 3-3-0
Combustion Engineering Chemical equilibrium, chemical kinetics, and governing equations in chemically reacting flows; detonation and deflagration waves; premixed and diffusion flames, calculation of flame speed, ignition and extinction, droplet vaporization and combustion; pollutant formation mechanism, and combustion measurement techniques.
4 2 DME4010 Automation of Manufacturing Systems Extended Major 3-3-0
Automation of Manufacturing Systems Design,modeling,analysis and control of manufacturing systems.Analytical and experimental techniques of general imporance in engineering measurement problems.System components and their operation of electromechanical systems.Architecture of manufacturing automation systems,data acquisition,logic design and analysis, I/O structure and interfacing,serial and parallel communications,and application of programmable logic controllers(PLC). Concepts of feedback control theory as applied to servomechani는(CNC, machine tools,robots,etc).Digital and adaptive control theory and analysis are also applied to manufacturing systems.Case studies for computer control of manufacturing processes; machining, assembly, forming and welding. 3 credits.
4 2 DME4023 NOISE CONTROL Extended Major 3-3-0
Understanding the sound generating mechanisms from various noise sources and the sound transmission through different layers of materials, and consequent perception of noise by human is an important engineering problem. In this course, basic concepts to understand the noise generations from many different sources are discussed. Students will study various theoretical and experimental methods to understand noise generating mechanisms from vibration of products and sound transmissions. The influence of noise on community and the standard method to define and measure noise sources are discussed. Various methods to reduce noise generations such as mufflers, vibration absorber, damping materials, and noise barriers are discussed. Also, the noise generations in industrial and residential environments are discussed.
4 2 DME4025 VEHICLE POWER SYSTEM Extended Major 3-3-0
This course studies the powerflow of the vehicle powertrain(from engine to driving wheel). The mechanisms and control systems of the vehicles equipped with M/T, A/T, 4WD, hybrid and SUV are covered. The vehicle dynamics will be also covered to understand the behavior of those mentioned vehicles.
4 2 DME4026 DIGITAL FORMING Extended Major 3-3-0
Firstly, this course reviews the stress-strain relationship in mechanics of materials. And we confirm this relationship in elasticity and plasticity. Also, focus on manufacturing technology (forging, rolling, extrusion, drawing, stamping etc.) using the plastic behavior of materials, digital measuring instruments and computer aided manufacturing.
4 2 INE4091 APPLICATIONS OF ELECTRIC MACHINERY Extended Major 3-3-0
Recent trends in engineering have increased the emphasis on integrated analysis and design of advanced electro-mechanical systems. The scope of electro-mechanical systems has continued to expand and, in addition to electric actuators. Course goal is to provide students with the nature and behavior of magnetic systems as they appear in electric machinery and, the operating principles and applications of electric machinery for electro-mechanical systems. Course topics : - basic principles of electromagnetic fields - analysis of magnetic systems - operating principles of electric machinery - applications of electric machinery for mechatronic systems
4 2 MEE3052 Mechanical Engineering Lab. 2 Extended Major 2-0-4
Mechanical Engineering Lab 2 Basic measurement techniques in internal combusution engines; performance tests for gasoline and diesel engines,compressor and nozzle tests,steam boiler performance tests,measurement of physical properties,measurement of pressure distribution in a flowfield,flow visualization,and performances test for pump and blower.
4 2 MEE4029 Hvac Extended Major 3-3-0
Heating Ventilating and Air Conditioning Explores the fundamentals of heating, ventilating, and air-conditioning (HVAC) systems. Discussion of psychrometrics, air conditioning processes, thermal comfort, indoor air quality and outdoor design conditions; concentration on the calculation of heating and cooling load in order to size suitable HVAC equipment; estimation of energy consumption of the HVAC equipment. Introduces plant engineering for mechanical engineeres.
4 2 MEE4035 Vehicle Dynamics System Extended Major 3-3-0
VEHICLE DYNAMICS SYSTEM Prerquisites: Kinematics, Dynamics. System Analysis and Control Systems. This course will emphasize procedures for analysis, control and prediction of vehicle performance. Topics to be covered are:(1) fundamentals of vehicle dynamic characteristics and control; (2) modeling and analysis of suspensions. steering systems, powertrains. brake systems and engine dynamics;(3) tire model and dynamics. also. vehicle dynamic performance.
4 2 MEE4079 Introduction to Aero Space Engineering Extended Major 3-3-0
The course provides the students the fundamental knowledge on Aerospace Engineering. In the beginning, the video tapes and CD's are used for the easy understanding of the historical background of aerospace development. And the basic design principle for the advanced aerospace vehicles of oncoming era will be discussed. A major introductory text will be used to study 1)Aerodynamics and Flight Mechanics, 2)Performance, Stability and Control, 3)Aircraft Structure and Airworthiness, 4)Aerospace Propulsion, 5)Avionics, 6)Flight Instrumentation, 7)Helicopters, 8)Astronautics and Satellites, 9)Aircraft Operation, 10)Conceptual Design of Aircrafts and Rockets, etc.
4 2 MEE4086 MECHANICAL ENGINEERING DESIGN PROJECT 2 Extended Major 3-0-2
.
4 2 MEE4088 Introduction to semiconductor and microelectro mechanical system process Extended Major 3-3-0
This lecture will cover the processing techniques and design methodologies of microfabrication. We will discuss the process modules: lithography, thermal oxidation, diffusion, ion implantation, etching, thin-film deposition, epitaxy, metallization, MEMS process integration.
4 2 PME4008 Optical Engineering Extended Major 3-3-0
Basic principles of optics, description of optical phenomena and their application to mechanical engineering: imaging by mirror and lens, mirror and lens equations, electro-magnetic characterizations of light, superposition of wave, interference and its applications to interferometry, holography and holographic interferometer, diffraction and Fourier optics, optical signal processing, and laser applications.
4 2 AUE4011 Computational Combustion Extended Major 3-3-0
Combustion Engineering Chemical equilibrium, chemical kinetics, and governing equations in chemically reacting flows; detonation and deflagration waves; premixed and diffusion flames, calculation of flame speed, ignition and extinction, droplet vaporization and combustion; pollutant formation mechanism, and combustion measurement techniques.
4 2 CSE4012 Computer Aided Design Extended Major 3-2-2
Computer Aided Design (컴퓨터지원설계) This course covers an introduction to the hardware and software algorithms used for computer graphics and computer-aided design. It includes display devices. 2 and 3 dimensional transformations. geometric modeling, and surface representations. al hours of programming per week in the C and GL library on UNIX workstations. Examples and assignments will include painting and drawing programs, animation. manipulation of 2D and 3D objects. wire frame and 3D surface shading as well as CSG modeling. Prerequisite: ability to program in C on UNIX workstations.
4 2 DME4010 Automation of Manufacturing Systems Extended Major 3-3-0
Automation of Manufacturing Systems Design,modeling,analysis and control of manufacturing systems.Analytical and experimental techniques of general imporance in engineering measurement problems.System components and their operation of electromechanical systems.Architecture of manufacturing automation systems,data acquisition,logic design and analysis, I/O structure and interfacing,serial and parallel communications,and application of programmable logic controllers(PLC). Concepts of feedback control theory as applied to servomechani는(CNC, machine tools,robots,etc).Digital and adaptive control theory and analysis are also applied to manufacturing systems.Case studies for computer control of manufacturing processes; machining, assembly, forming and welding. 3 credits.
4 2 DME4023 NOISE CONTROL Extended Major 3-3-0
Understanding the sound generating mechanisms from various noise sources and the sound transmission through different layers of materials, and consequent perception of noise by human is an important engineering problem. In this course, basic concepts to understand the noise generations from many different sources are discussed. Students will study various theoretical and experimental methods to understand noise generating mechanisms from vibration of products and sound transmissions. The influence of noise on community and the standard method to define and measure noise sources are discussed. Various methods to reduce noise generations such as mufflers, vibration absorber, damping materials, and noise barriers are discussed. Also, the noise generations in industrial and residential environments are discussed.
4 2 DME4025 VEHICLE POWER SYSTEM Extended Major 3-3-0
This course studies the powerflow of the vehicle powertrain(from engine to driving wheel). The mechanisms and control systems of the vehicles equipped with M/T, A/T, 4WD, hybrid and SUV are covered. The vehicle dynamics will be also covered to understand the behavior of those mentioned vehicles.
4 2 DME4026 DIGITAL FORMING Extended Major 3-3-0
Firstly, this course reviews the stress-strain relationship in mechanics of materials. And we confirm this relationship in elasticity and plasticity. Also, focus on manufacturing technology (forging, rolling, extrusion, drawing, stamping etc.) using the plastic behavior of materials, digital measuring instruments and computer aided manufacturing.
4 2 INE4091 APPLICATIONS OF ELECTRIC MACHINERY Extended Major 3-3-0
Recent trends in engineering have increased the emphasis on integrated analysis and design of advanced electro-mechanical systems. The scope of electro-mechanical systems has continued to expand and, in addition to electric actuators. Course goal is to provide students with the nature and behavior of magnetic systems as they appear in electric machinery and, the operating principles and applications of electric machinery for electro-mechanical systems. Course topics : - basic principles of electromagnetic fields - analysis of magnetic systems - operating principles of electric machinery - applications of electric machinery for mechatronic systems
4 2 MEE3052 Mechanical Engineering Lab. 2 Extended Major 2-0-4
Mechanical Engineering Lab 2 Basic measurement techniques in internal combusution engines; performance tests for gasoline and diesel engines,compressor and nozzle tests,steam boiler performance tests,measurement of physical properties,measurement of pressure distribution in a flowfield,flow visualization,and performances test for pump and blower.
4 2 MEE4029 Hvac Extended Major 3-3-0
Heating Ventilating and Air Conditioning Explores the fundamentals of heating, ventilating, and air-conditioning (HVAC) systems. Discussion of psychrometrics, air conditioning processes, thermal comfort, indoor air quality and outdoor design conditions; concentration on the calculation of heating and cooling load in order to size suitable HVAC equipment; estimation of energy consumption of the HVAC equipment. Introduces plant engineering for mechanical engineeres.
4 2 MEE4035 Vehicle Dynamics System Extended Major 3-3-0
VEHICLE DYNAMICS SYSTEM Prerquisites: Kinematics, Dynamics. System Analysis and Control Systems. This course will emphasize procedures for analysis, control and prediction of vehicle performance. Topics to be covered are:(1) fundamentals of vehicle dynamic characteristics and control; (2) modeling and analysis of suspensions. steering systems, powertrains. brake systems and engine dynamics;(3) tire model and dynamics. also. vehicle dynamic performance.
4 2 MEE4036 Finite Element Analysis Extended Major 3-2-2
Finite Element Analysis Deformation, stress and dynamic characteristics of complex machine structures are generally analyzed by the finite element method. In this course, the basic concepts of the finite element method, formulation methods, element classification and its characteristics, modeling techniques of structures, effective usage of package programs and the design application methods of analysis results are studied through the lecture and the practice.
4 2 MEE4079 Introduction to Aero Space Engineering Extended Major 3-3-0
The course provides the students the fundamental knowledge on Aerospace Engineering. In the beginning, the video tapes and CD's are used for the easy understanding of the historical background of aerospace development. And the basic design principle for the advanced aerospace vehicles of oncoming era will be discussed. A major introductory text will be used to study 1)Aerodynamics and Flight Mechanics, 2)Performance, Stability and Control, 3)Aircraft Structure and Airworthiness, 4)Aerospace Propulsion, 5)Avionics, 6)Flight Instrumentation, 7)Helicopters, 8)Astronautics and Satellites, 9)Aircraft Operation, 10)Conceptual Design of Aircrafts and Rockets, etc.
4 2 MEE4086 MECHANICAL ENGINEERING DESIGN PROJECT 2 Extended Major 3-0-3
.
4 2 MEE4088 Introduction to semiconductor and microelectro mechanical system process Extended Major 3-3-0
This lecture will cover the processing techniques and design methodologies of microfabrication. We will discuss the process modules: lithography, thermal oxidation, diffusion, ion implantation, etching, thin-film deposition, epitaxy, metallization, MEMS process integration.
4 2 PME4008 Optical Engineering Extended Major 3-3-0
Basic principles of optics, description of optical phenomena and their application to mechanical engineering: imaging by mirror and lens, mirror and lens equations, electro-magnetic characterizations of light, superposition of wave, interference and its applications to interferometry, holography and holographic interferometer, diffraction and Fourier optics, optical signal processing, and laser applications.
4 2 APA4010 Mechanism Design Extended Major 3-3-0
Kinematics of Mechanisms Every machine is devised to produce the output desired through the mechanism or the combination of mechanisms transmitting motions and forces for the given input. This course deals first with what a mechanism is, what a mechanism can do, how it can be classified, and its limitations. Then, various methods of analyzing the motions of mechanisms are presented. This course also treats the engineering problems involving the selection, the specifications, the design, and the sizing of cam mechanisms to accomplish specific motion objectives. Finally, this course presents the methods and applications of static force analysis and dynamic force analysis.
4 2 DME4069 Power Generation Technologies Extended Major 3-3-0
In this course, power generation technologies are discussed regarding on generation, transformation, transfer, and usage of energy. Renewable energy and direct energy conversions are provided to students.
4 2 MEE4086 MECHANICAL ENGINEERING DESIGN PROJECT 2 Extended Major 3-0-3
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