### College Of Engineering Sciences Department Of Mechanical Engineering

位置 | |||
---|---|---|---|

电话号码 | 하단 담당자별 전화번호 참조 | ||

传真号码 | |||

邮件 | / | ||

相关网页 | * Visit the website for more detail. | ||

相关SNS |

金于勝 / President | 朴景鎭 / Professor |

崔洛三 / Professor | 安康鎬 / Professor |

梁鉉益 / Professor | 裴大性 / Professor |

李奇衡 / Professor | 趙南圭 / Professor |

安裕民 / Professor | 鄭鎭台 / Professor |

尹駿溶 / Professor | 李誠桓 / Professor |

李度炯 / Professor | 吳帝勳 / Professor |

金永得 / Associate Professor | 柳根 / Associate Professor |

尹鍾憲 / Associate Professor | 金南旭 / Associate Professor |

Won Chul Lee / Associate Professor | 홍석준 / Assistant Professor |

崔準明 / Assistant Professor | Cho Won Joon / Adjunct Professor |

李基洪 / Adjunct Professor | LEE KIYOUNG / Visiting Scholar Professor |

鄭泰亨 / Emeritus Professor | 姜 秀 晙 / Visiting Scholar Professor |

박창순 / Research Associate Professor | 金栽坤 / Honorary Professor |

安昞雲 / Adjunct Professor | 全晟豪 / Post-Doc. |

学年 | 学期 | 学号 | 教学科目 | 科目分类 | 学分-课程-实习 | |
---|---|---|---|---|---|---|

1 | 1 | CUL0005 | Korean Speaking and Writing | (Compulsory) Requirement in Fundamental Studies | 3-4-0 | |

This course is held twice a week, each for 1.5 hours. The course is mainly divided into two parts; one is Korean speaking and the other is Korean writing. Through the Korean speaking class, students will build the ability of excellent self-expression based on in-depth study about Korean language. In the Korean writing class, students will learn how to write different genres by understanding and analyzing various readers’ perspectives. Accordingly, at the end of the semester, the students will develop critical thinking ability as well as effective speaking and writing skills. | ||||||

1 | 1 | GEN0063 | General Physics 1 | (Compulsory) Requirement in Fundamental Studies | 2-3-0 | |

First semester of a two-semester calculus-based introductory physics course for science and engineering majors.This course will cover physics related to Newtonian mechanics, oscillations and waves, heat and thermodynamics. | ||||||

1 | 1 | GEN0066 | General Physics Lab. 1 | (Compulsory) Requirement in Fundamental Studies | 1-0-2 | |

This course consists of experiments about the basic conecpts of mechanics, measurement of physical quantities, and some physical properties of materials. | ||||||

1 | 1 | GEN0068 | General Chemistry 1 | (Compulsory) Requirement in Fundamental Studies | 2-3-0 | |

Language of chemistry, chemical calculations, gas, solution, chemical equilibrium, acid-base reaction are discussed in order to understand the basic principles explaining properties of substance, molecular structure, chemical change, rules of chemistry and related concepts. | ||||||

1 | 1 | GEN0070 | General Chemistry Lab. 1 | (Compulsory) Requirement in Fundamental Studies | 1-0-2 | |

Basic theoretical aspects of the general chemistry will be examined through observations and experiments. The basic laboratory techniques for the general chemistry will be practiced. Determination of physical and chemical properties of unknown samples, recrystallization, acid-base titration and determination of equilibrium constant will be handled. | ||||||

1 | 1 | GEN2052 | Calculus 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |

GEN252Calculus1 This course is intended for students from the colleges of engineering and sciences to understand basic concept of mathematics applicable to relevant fields. It covers several basic topics such as InverseTrigonometricFunctions,DifferentiationandDifferentiableFunctions, PolarCoordinates,ParametricEquations,ProperandImproperIntegrals,InfiniteSeries,and TaylorSeries. | ||||||

1 | 1 | GEN3041 | Elementary Chinese 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |

This is the beginning course of Mandarin Chinese for the students of any major, It is not necessary to have seperate classes depending on the students majors because the basic expressions are the same regardless fields of studies. | ||||||

1 | 1 | CUL0005 | Korean Speaking and Writing | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |

This course is held twice a week, each for 1.5 hours. The course is mainly divided into two parts; one is Korean speaking and the other is Korean writing. Through the Korean speaking class, students will build the ability of excellent self-expression based on in-depth study about Korean language. In the Korean writing class, students will learn how to write different genres by understanding and analyzing various readers’ perspectives. Accordingly, at the end of the semester, the students will develop critical thinking ability as well as effective speaking and writing skills. | ||||||

1 | 1 | GEN0063 | General Physics 1 | (Compulsory) Requirement in Fundamental Studies | 2-3-0 | |

First semester of a two-semester calculus-based introductory physics course for science and engineering majors.This course will cover physics related to Newtonian mechanics, oscillations and waves, heat and thermodynamics. | ||||||

1 | 1 | GEN0066 | General Physics Lab. 1 | (Compulsory) Requirement in Fundamental Studies | 1-0-2 | |

This course consists of experiments about the basic conecpts of mechanics, measurement of physical quantities, and some physical properties of materials. | ||||||

1 | 1 | GEN0068 | General Chemistry 1 | (Compulsory) Requirement in Fundamental Studies | 2-3-0 | |

Language of chemistry, chemical calculations, gas, solution, chemical equilibrium, acid-base reaction are discussed in order to understand the basic principles explaining properties of substance, molecular structure, chemical change, rules of chemistry and related concepts. | ||||||

1 | 1 | GEN0070 | General Chemistry Lab. 1 | (Compulsory) Requirement in Fundamental Studies | 1-0-2 | |

Basic theoretical aspects of the general chemistry will be examined through observations and experiments. The basic laboratory techniques for the general chemistry will be practiced. Determination of physical and chemical properties of unknown samples, recrystallization, acid-base titration and determination of equilibrium constant will be handled. | ||||||

1 | 1 | GEN2052 | Calculus 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |

This course is intended for students from the colleges of engineering and sciences to understand basic concept of mathematics applicable to relevant fields. It covers several basic topics such as Inverse Trigono metric Functions, Differentiation and Differentiable Functions, Polar Coordinates, Parametric Equations, Proper and Improper Integrals, Infinite Series, and Taylor Series. | ||||||

1 | 1 | GEN3041 | Elementary Chinese 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |

This is the beginning course of Mandarin Chinese for the students of any major, It is not necessary to have seperate classes depending on the students majors because the basic expressions are the same regardless fields of studies. | ||||||

1 | 1 | VCC1001 | Vision & Career in Campus life | (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. | ||||||

1 | 1 | CUL0101 | Korean Speaking and Culture | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

This course is designed to develop the students’ faculty of understanding complex issues and the ability to clearly express what they are thinking about. Students will be provided opportunities to practice the skills of presentation, discussion, debate, interview and to receive feedback on their performance during the class. Following this, students learn how to present their reasoned arguments and how to better understand and accept other people's opinions. | ||||||

1 | 1 | CUL0106 | UNDERSTANDING SOFTWARE | (Compulsory) Requirement in Fundamental Studies | 1-1-0 | |

1 | 1 | GEN0063 | General Physics 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |

1 | 1 | GEN0066 | General Physics Lab. 1 | (Compulsory) Requirement in Fundamental Studies | 1-0-2 | |

1 | 1 | GEN0068 | General Chemistry 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |

Language of chemistry, chemical calculations, gas, solution, chemical equilibrium, acid-base reaction are discussed in order to understand the basic principles explaining properties of substance, molecular structure, chemical change, rules of chemistry and related concepts. | ||||||

1 | 1 | GEN1042 | Elementary Mandarin Chinese | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

Read the first time the Chinese rudimentary lexical representation based learning for students to learn Chinese pronunciation and tones the target language to be practical to equip the basic Chinese conversation skills-oriented daily life. | ||||||

1 | 1 | GEN2052 | Calculus 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |

1 | 1 | MEE1010 | Introduction to Mechanical Engineering | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

This course is designed to understand the mechanical design for mechanical engineers. The detail contents are as follows: Automatic Design, Thermal Engineering & Material Processing, Virtual Dynamics, Engine Combustion & Optical Diagnostics, Micro Electro-Mechanical Systems, Fluid Engineering, Materials Design and Reliability, Nano-particle Control, Intelligent Computer Integrated Design, Multi Scale Metrology, Vibration, Nano-Intelligent Manufacturing, Applied Computational Design & Fluid Dynamics, Advanced Materials and Innovative Design, Turbomachinery, Energy & Environmental Engineering, Computational Hybrid Analysis and Materials Processing, and so on. | ||||||

1 | 1 | VCC1001 | IC-PBL and Visioning | (Compulsory) Requirement in Fundamental Studies | 1-1-0 | |

This is a compulsory liberal arts course for freshmen students, which seeks to enable students to establish their personal career visions, mainly by helping them adjust to university life and thoroughly understanding their majors. Students are expected to increase the understanding of their majors, thus plan out their learning and career vision to be able to identify and cultivate practical competencies required at the work field. This will mainly be achieved through continuous and intimate communication with professors and fellow learners of small groups (in less than 10 students). Through a series of introductory lectures on the majors with a learner-centered Problem Based Learning technique, students are expected to be able to strengthen their problem solving skills while cultivating their socializing skills at the same time. | ||||||

1 | 1 | CUL0106 | UNDERSTANDING SOFTWARE | Compulsory General Studies | 1-1-0 | |

1 | 1 | CUL2100 | Korean Academic Writing | Compulsory General Studies | 2-2-0 | |

This subject is designed to foster the writing skills needed for effective communication in college and social life. The first part of the lecture will cover general theory of writing such as requirements for good writing, topic writing, composition and overview, correct sentence writing and spelling, while the second part of the lecture will consist of a curriculum that will actually write essays that are necessary for college and social life, such as writing an introduction letter, writing an academic report, writing a SNS, writing a report, and writing a report, depending on the purpose of writing. | ||||||

1 | 1 | CUL2101 | Artificial Intelligence and Future Society | Compulsory General Studies | 2-1-2 | |

1 | 1 | GEN0063 | General Physics 1 | Major Foundation Courses | 3-3-0 | |

1 | 1 | GEN0066 | General Physics Lab. 1 | Major Foundation Courses | 1-0-2 | |

1 | 1 | GEN0068 | General Chemistry 1 | Major Foundation Courses | 3-3-0 | |

1 | 1 | GEN2052 | Calculus 1 | Major Foundation Courses | 3-3-0 | |

1 | 1 | MEE1010 | Introduction to Mechanical Engineering | Major Foundation Courses | 2-2-0 | |

This course is designed to understand the mechanical design for mechanical engineers. The detail contents are as follows: Automatic Design, Thermal Engineering & Material Processing, Virtual Dynamics, Engine Combustion & Optical Diagnostics, Micro Electro-Mechanical Systems, Fluid Engineering, Materials Design and Reliability, Nano-particle Control, Intelligent Computer Integrated Design, Multi Scale Metrology, Vibration, Nano-Intelligent Manufacturing, Applied Computational Design & Fluid Dynamics, Advanced Materials and Innovative Design, Turbomachinery, Energy & Environmental Engineering, Computational Hybrid Analysis and Materials Processing, and so on. | ||||||

1 | 1 | VCC1001 | IC-PBL and Visioning | Compulsory General Studies | 1-1-0 | |

This is a compulsory liberal arts course for freshmen students, which seeks to enable students to establish their personal career visions, mainly by helping them adjust to university life and thoroughly understanding their majors. Students are expected to increase the understanding of their majors, thus plan out their learning and career vision to be able to identify and cultivate practical competencies required at the work field. This will mainly be achieved through continuous and intimate communication with professors and fellow learners of small groups (in less than 10 students). Through a series of introductory lectures on the majors with a learner-centered Problem Based Learning technique, students are expected to be able to strengthen their problem solving skills while cultivating their socializing skills at the same time. | ||||||

1 | 2 | GEN0064 | General Physics 2 | (Compulsory) Requirement in Fundamental Studies | 2-3-0 | |

Second semester of a two-semester calculus-based introductory physics course for science and engineering majors. This course will cover physics related to electricity, magnetism, geometrical and physical optics, relativity and quantum mechanics. | ||||||

1 | 2 | GEN0067 | General Physics Lab. 2 | (Compulsory) Requirement in Fundamental Studies | 1-0-2 | |

This course consists of experiments about the basic conecpts of electromagnetism, waves, and modern physics. | ||||||

1 | 2 | GEN0069 | General Chemistry 2 | (Compulsory) Requirement in Fundamental Studies | 2-3-0 | |

Modern chemistry is the one of basic tools in uderstanding the natural sciences. Based on the contents treated in previous semester, various contents of chemistry associated with pure science and engineering are treated in this course. Topics including atomic structure, electronic configuration and periodic table, chemical bond, bondign theory, molecular structure, liquid, solid, molecular force, chemical reaction, thermochemisty, electrochemistry and nuclear chemistry are discussed to understand the nature of matter and their applications. | ||||||

1 | 2 | GEN0071 | General Chemistry Lab. 2 | (Compulsory) Requirement in Fundamental Studies | 1-0-2 | |

The theoretical aspects of basic physical chemistry will be examined and practiced through observations and experiments. Calorimetric method, oxidation-reduction titration, synthesis of aspirin and the studies on Beer's law using an absorption spectroscopy will be handled. | ||||||

1 | 2 | GEN2053 | Calculus 2 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |

1 | 2 | GEN3034 | Creative English Reading | (Compulsory) Requirement in Fundamental Studies | 2-3-0 | |

This course will give the chance students to imporve their reading skill needed before taking their own major classes. This course is designed to focus on reading, but it'll deal with general knowlege of English such as listening, speaking and writing. Therefore with this course, students can improve their English communication skill. | ||||||

1 | 2 | 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 | 2 | ITE1009 | C PROGRAMING | (Compulsory) Requirement in Fundamental Studies | 2-2-2 | |

C 프로그래밍 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 | GEN0064 | General Physics 2 | (Compulsory) Requirement in Fundamental Studies | 2-3-0 | |

Second semester of a two-semester calculus-based introductory physics course for science and engineering majors. This course will cover physics related to electricity, magnetism, geometrical and physical optics, relativity and quantum mechanics. | ||||||

1 | 2 | GEN0067 | General Physics Lab. 2 | (Compulsory) Requirement in Fundamental Studies | 1-0-2 | |

This course consists of experiments about the basic conecpts of electromagnetism, waves, and modern physics. | ||||||

1 | 2 | GEN0069 | General Chemistry 2 | (Compulsory) Requirement in Fundamental Studies | 2-3-0 | |

Modern chemistry is the one of basic tools in uderstanding the natural sciences. Based on the contents treated in previous semester, various contents of chemistry associated with pure science and engineering are treated in this course. Topics including atomic structure, electronic configuration and periodic table, chemical bond, bondign theory, molecular structure, liquid, solid, molecular force, chemical reaction, thermochemisty, electrochemistry and nuclear chemistry are discussed to understand the nature of matter and their applications. | ||||||

1 | 2 | GEN0071 | General Chemistry Lab. 2 | (Compulsory) Requirement in Fundamental Studies | 1-0-2 | |

The theoretical aspects of basic physical chemistry will be examined and practiced through observations and experiments. Calorimetric method, oxidation-reduction titration, synthesis of aspirin and the studies on Beer's law using an absorption spectroscopy will be handled. | ||||||

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 | GEN4091 | Philosophical Understanding of Science and Technology | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

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. | ||||||

1 | 2 | GEN8000 | Creative English Reading-Beginning | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

This ability-based course (beginning, intermediate, advanced) will provide the students with the opportunities to improve their reading skills needed before taking their own major classes. This course is designed to focus on reading, but it'll deal with general knowledge of English such as listening, speaking and writing. Therefore, with this course, students can improve their overall English communication skills. | ||||||

1 | 2 | GEN8001 | Creative English Reading-Intermediate | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

This ability-based course (beginning, intermediate, advanced) will provide the students with the opportunities to improve their reading skills needed before taking their own major classes. This course is designed to focus on reading, but it'll deal with general knowledge of English such as listening, speaking and writing. Therefore, with this course, students can improve their overall English communication skills. | ||||||

1 | 2 | GEN8002 | Creative English Reading-Advanced | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

This ability-based course (beginning, intermediate, advanced) will provide the students with the opportunities to improve their reading skills needed before taking their own major classes. This course is designed to focus on reading, but it'll deal with general knowledge of English such as listening, speaking and writing. Therefore, with this course, students can improve their overall English communication skills. | ||||||

1 | 2 | ITE1009 | C PROGRAMING | (Compulsory) Requirement in Fundamental Studies | 2-2-2 | |

C 프로그래밍 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 | 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 | COE3051 | Engineering Mathematics 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |

Various solution methods and techniques of ordinary differential equations are studied in this course. Followings are the topics of the study. 1. The solution methods of 1st and 2nd order ordinary differential equations 2. The solution methods of linear simultaneous ordinry differential equations 3. The series solution techniques of ordinary differential equations 4. Laplas transformation | ||||||

1 | 2 | CUL0102 | Korean Writing and Living | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

This course is designed to develop the students’ faculty of understanding complex issues and the ability to clearly express their thoughts in writing. Students will be trained to write correct sentences and to format texts of various genre, and then receive feedback on their performance during the class. Following this, students will learn how to present their reasoned thoughts effectively. | ||||||

1 | 2 | GEN0064 | General Physics 2 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |

1 | 2 | GEN2053 | Calculus 2 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |

This course is intended for students from the colleges of engineering and sciences to understand basic concept of mathematics applicable to relevant fields. It covers several basic topics such as Inverse Trigonometric Functions, Differentiation and Differentiable Functions, PolarCoordinates ,ParametricEquations, ProperandImproperIntegrals, InfiniteSeries, and TaylorSeries. | ||||||

1 | 2 | ITE1009 | C PROGRAMING | (Compulsory) Requirement in Fundamental Studies | 2-1-2 | |

This course learns the C language to used the most widely. We are aimed to solve real-world problems to learn the basic syntax and the various features. - Learn basic grammar - Analyze and design the problem - Create a C program and check the result of the problem | ||||||

1 | 2 | MEE1002 | COMPUTER AIDED DRAFT AND DESIGN | (Compulsory) Requirement in Fundamental Studies | 3-0-6 | |

This course will be suitable for the students who already learned computer graphics. In the class, students will learn how to interpret and draw various mechanical parts for the detailed design of the mechanical system. It also let students learn the official rules and regulations of the mechanical design by practicing the actual mechanical drawings, such as drawing symbols, drawing lay-outs, projections, drawing descriptions, dimensioning, tolerancing, and various mechanical parts such as bolt, nut, key, rivet, spring, gear and cam. | ||||||

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 | COE3051 | Engineering Mathematics 1 | Major Foundation Courses | 3-3-0 | |

Various solution methods and techniques of ordinary differential equations are studied in this course. Followings are the topics of the study. 1. The solution methods of 1st and 2nd order ordinary differential equations 2. The solution methods of linear simultaneous ordinry differential equations 3. The series solution techniques of ordinary differential equations 4. Laplas transformation | ||||||

1 | 2 | GEN0064 | General Physics 2 | Major Foundation Courses | 3-3-0 | |

1 | 2 | GEN1042 | Elementary Mandarin Chinese | Compulsory General Studies | 2-2-0 | |

Read the first time the Chinese rudimentary lexical representation based learning for students to learn Chinese pronunciation and tones the target language to be practical to equip the basic Chinese conversation skills-oriented daily life. | ||||||

1 | 2 | GEN2053 | Calculus 2 | Major Foundation Courses | 3-3-0 | |

This course is intended for students from the colleges of engineering and sciences to understand basic concept of mathematics applicable to relevant fields. It covers several basic topics such as Inverse Trigonometric Functions, Differentiation and Differentiable Functions, PolarCoordinates ,ParametricEquations, ProperandImproperIntegrals, InfiniteSeries, and TaylorSeries. | ||||||

1 | 2 | MEE1002 | COMPUTER AIDED DRAFT AND DESIGN | Major Foundation Courses | 3-0-6 | |

This course will be suitable for the students who already learned computer graphics. In the class, students will learn how to interpret and draw various mechanical parts for the detailed design of the mechanical system. It also let students learn the official rules and regulations of the mechanical design by practicing the actual mechanical drawings, such as drawing symbols, drawing lay-outs, projections, drawing descriptions, dimensioning, tolerancing, and various mechanical parts such as bolt, nut, key, rivet, spring, gear and cam. | ||||||

2 | 1 | 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. | ||||||

2 | 1 | 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 takes structures such as trusses, beams and cables as examples, and applies the basic principles to them. | ||||||

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 | 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 | 1 | CSE4020 | Computer Graphics | (Compulsory) Requirement in Fundamental Studies | 3-2-2 | |

The primary objective of this course is to have students acquire basic techniques and knowledge to develop software in his or her discipline. In particular, the focus will be on the applications in Internet environment and Java is the primary programming language. Through this course, students are expected to learn how to solve engineering problems using computational environments. | ||||||

2 | 1 | DEE2004 | English Communication 1 | (Compulsory) Requirement in Fundamental Studies | 2-3-0 | |

This course will focus on developing students’ English communication ability through interaction with interesting and engaging topics. With an emphasis on speaking and listening, all four language skills are covered: listening, speaking, reading and writing. Lectures include grammar review, drills, and interactive exercises that will expand and sharpen student’s English ability. | ||||||

2 | 1 | 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 | 1 | 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. | ||||||

2 | 1 | COE3051 | Engineering Mathematics 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |

Various solution methods and techniques of ordinary differential equations are studied in this course. Followings are the topics of the study. 1. The solution methods of 1st and 2nd order ordinary differential equations 2. The solution methods of linear simultaneous ordinry differential equations 3. The series solution techniques of ordinary differential equations 4. Laplas transformation | ||||||

2 | 1 | COE3052 | Engineering Mathematics 2 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |

In this course, following 2 major topics are treated. 1. Linear algebra: matrix theory, the solution techniques and theory of liear simultaneous equation are dealt with. 2. Vector calculus: multi variable function and related topics such as gradient, line integral, surface integral etc. will be studied. | ||||||

2 | 1 | CSE4020 | Computer Graphics | (Compulsory) Requirement in Fundamental Studies | 3-2-2 | |

This course introduces the basic principles and techniques of Computer Graphics. Students will learn to design and write significant graphics applications utilizing computer software. Note that the course requires extensive practice and effort to study and understand 2D/3D objects and space concept. | ||||||

2 | 1 | DEE2037 | English Communication1-Beginning | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

This course will provide the students with ability-based classes: beginning, intermediate and advanced. This course will focus on developing students’ English communication skills through interactions with interesting and engaging topics. With an emphasis on speaking and listening, all four language skills will be covered: listening, speaking, reading and writing. Lectures include grammar review, drills, and interactive exercises that will expand and sharpen student’s English ability. | ||||||

2 | 1 | DEE2038 | English Communication1-Intermediate | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

This course will provide the students with ability-based classes: beginning, intermediate and advanced. This course will focus on developing students’ English communication skills through interactions with interesting and engaging topics. With an emphasis on speaking and listening, all four language skills will be covered: listening, speaking, reading and writing. Lectures include grammar review, drills, and interactive exercises that will expand and sharpen student’s English ability. | ||||||

2 | 1 | DEE2039 | English Communication1-Advanced | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

This course will provide the students with ability-based classes: beginning, intermediate and advanced. This course will focus on developing students’ English communication skills through interactions with interesting and engaging topics. With an emphasis on speaking and listening, all four language skills will be covered: listening, speaking, reading and writing. Lectures include grammar review, drills, and interactive exercises that will expand and sharpen student’s English ability. | ||||||

2 | 1 | MEE2011 | Mechanical Engineering and Management | Core Major | 3-3-0 | |

This course is designed to understand the concepts of Manufacturing System and economic aspects of engineering for mechanical engineers. The detail contents are as follows: basic concept of Engineering Economy, calculation value of money, economic analysis of alternative, costs estimating for decision making, Operating and Manufacturing System, Process Design and Management, Production Planning, Purchase and Inventory Management, Quality Management, and so on. | ||||||

2 | 1 | MEE3012 | Thermodynamics | Compulsory 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 | 1 | VCC2001 | Career exploration for Youth Employment Entrepreneurship | (Compulsory) Requirement in Fundamental Studies | 1-1-0 | |

This course provides lower grade students who want to get jobs the chance to prepare their advance into society. Students can learn how to understand the world of careers and think about their future plan by exploring career. Students will have online-class where they take test related to career-psychology and make their own career-roadmap in order to analyze themselves and explore their careers. | ||||||

2 | 1 | COE2052 | Solid Mechanics | Core Major | 3-3-0 | |

This course is studied for students for students to learn the safety of machine structures, calculation methods for deformatin, and stresses of structure members. Structure modeling techniques, the definitin of stresses and strains, Hooke`s law, the mechanics of axial and torsion members, internal force diagrams, etc., are studied in this course. | ||||||

2 | 1 | COE3052 | Engineering Mathematics 2 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |

In this course, following 2 major topics are treated. 1. Linear algebra: matrix theory, the solution techniques and theory of liear simultaneous equation are dealt with. 2. Vector calculus: multi variable function and related topics such as gradient, line integral, surface integral etc. will be studied. | ||||||

2 | 1 | DEE2037 | English Communication1-Beginning | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

2 | 1 | DEE2038 | English Communication1-Intermediate | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

2 | 1 | DEE2039 | English Communication1-Advanced | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

2 | 1 | DEE2051 | English for Academic Purpose 1:Integrated Skills | Compulsory General Studies | 2-2-0 | |

2 | 1 | EME2009 | Material & Design | Core Major | 3-3-0 | |

EME209 Mechanical Materials Design The purpose of the class to understand the nature of the material and mechanical properties for each type of material and purpose is to acquire the relevant knowledge. | ||||||

2 | 1 | MEE2006 | Introduction to Mechanical Design | Core Major | 3-2-2 | |

Design is taught to sophomores who have been exposed a little to mechanical engineering. The purpose of this course is to inspire and train students on “Design Thinking.” The general concept of design is sought and the thinking process is investigated. Axiomatic design is introduced as the general design theory. How to define customer needs and functional requirements is studied and examples from various disciplines are solved. A term project is assigned to each team of 4?5 students, and the final results of the projects are to be presented. A group of TA’s supervises the teams of the term project. | ||||||

2 | 1 | MEE3012 | Thermodynamics | Core Major | 3-3-0 | |

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 | 1 | VCC2001 | IC-PBL & Career exploration for Youth Employment Entrepreneurship | (Compulsory) Requirement in Fundamental Studies | 1-1-0 | |

This course provides lower grade students who want to get jobs the chance to prepare their advance into society. Students can learn how to understand the world of careers and think about their future plan by exploring career. Students will have online-class where they take test related to career-psychology and make their own career-roadmap in order to analyze themselves and explore their careers. | ||||||

2 | 1 | COE2052 | Solid Mechanics | Core Major | 3-3-0 | |

This course is studied for students for students to learn the safety of machine structures, calculation methods for deformatin, and stresses of structure members. Structure modeling techniques, the definitin of stresses and strains, Hooke`s law, the mechanics of axial and torsion members, internal force diagrams, etc., are studied in this course. | ||||||

2 | 1 | COE3052 | Engineering Mathematics 2 | Major Foundation Courses | 3-3-0 | |

In this course, following 2 major topics are treated. 1. Linear algebra: matrix theory, the solution techniques and theory of liear simultaneous equation are dealt with. 2. Vector calculus: multi variable function and related topics such as gradient, line integral, surface integral etc. will be studied. | ||||||

2 | 1 | DEE2051 | English for Academic Purpose 1:Integrated Skills | Compulsory General Studies | 2-2-0 | |

English for Academic Purposes 1: Integrated Skills is tailored to benefit students’ English abilities related to their major and specific needs, and to connect to skills learned in EAP 2. This course involves discipline-specific and academic-level readings supported by discussion, presenting, or other activities. The aim of EAP 1 is to enhance reading and speaking abilities which will be necessary in other course work and in future workplaces. | ||||||

2 | 1 | EME2009 | Material & Design | Core Major | 3-3-0 | |

EME209 Mechanical Materials Design The purpose of the class to understand the nature of the material and mechanical properties for each type of material and purpose is to acquire the relevant knowledge. | ||||||

2 | 1 | MEE2006 | Introduction to Mechanical Design | Core Major | 3-2-2 | |

Design is taught to sophomores who have been exposed a little to mechanical engineering. The purpose of this course is to inspire and train students on “Design Thinking.” The general concept of design is sought and the thinking process is investigated. Axiomatic design is introduced as the general design theory. How to define customer needs and functional requirements is studied and examples from various disciplines are solved. A term project is assigned to each team of 4?5 students, and the final results of the projects are to be presented. A group of TA’s supervises the teams of the term project. | ||||||

2 | 1 | MEE3012 | Thermodynamics | Core Major | 3-3-0 | |

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 | 1 | VCC2001 | IC-PBL & Career exploration for Youth Employment Entrepreneurship | Compulsory General Studies | 1-1-0 | |

This course provides lower grade students who want to get jobs the chance to prepare their advance into society. Students can learn how to understand the world of careers and think about their future plan by exploring career. Students will have online-class where they take test related to career-psychology and make their own career-roadmap in order to analyze themselves and explore their careers. | ||||||

2 | 2 | COE2052 | Solid Mechanics | Core Major | 3-3-0 | |

This course is studied for students for students to learn the safety of machine structures, calculation methods for deformatin, and stresses of structure members. Structure modeling techniques, the definitin of stresses and strains, Hooke`s law, the mechanics of axial and torsion members, internal force diagrams, etc., are studied in this course. | ||||||

2 | 2 | COE3002 | Numerical Computation | Core Major | 3-3-0 | |

Calculation of roots of single and multiple equations, calculation of vector and matrix, linear and nonlinear curve fitting, numerical differentiation and integration, numerical analysis of single or system of differential equations, and optimization technique. Steady state and dynamic process simulation with feedback structure by several numerical technique. | ||||||

2 | 2 | COE3053 | Engineering Mathematics 3 | Core Major | 3-3-0 | |

Topics are vectors, tensors, partial differential equations and continuum mechanics. | ||||||

2 | 2 | DEE2005 | English Communication 2 | (Compulsory) Requirement in Fundamental Studies | 2-3-0 | |

The main goal of this course is to provide a strong knowledge base of English which you can build on in the future. We will focus on vocabulary, expressions, pronounciation and grammar. You will be asked to converse and write on different topics each class, and also there will be chances for free talking and writing within the framework of the given lesson. | ||||||

2 | 2 | EME2009 | Material & Design | Core Major | 3-3-0 | |

EME209 Mechanical Materials Design The purpose of the class to understand the nature of the material and mechanical properties for each type of material and purpose is to acquire the relevant knowledge. | ||||||

2 | 2 | MEE1002 | COMPUTER AIDED DRAFT AND DESIGN | Core Major | 2-0-4 | |

This course will be suitable for the students who already learned computer graphics. In the class, students will learn how to interpret and draw various mechanical parts for the detailed design of the mechanical system. It also let students learn the official rules and regulations of the mechanical design by practicing the actual mechanical drawings, such as drawing symbols, drawing lay-outs, projections, drawing descriptions, dimensioning, tolerancing, and various mechanical parts such as bolt, nut, key, rivet, spring, gear and cam. | ||||||

2 | 2 | MEE1003 | MECHANICAL MEASUREMENT | Core Major | 3-3-0 | |

This course is offered to students who have no previous experience in mechanical measurement. Characteristics of general measurement systems and fundamental statistics and basic data processing techniques including uncertainty analysis and data regression are introduced, so that students would be able to design measuring system and measurement process for the reliable test and assessment. | ||||||

2 | 2 | MEE2005 | Applied Thermodynamics & Design | Core Major | 3-3-0 | |

2 | 2 | MEE2006 | Introduction to Mechanical Design | Core Major | 3-2-2 | |

공학설계에 대해 일반적인 사항을 소개한다. 공리적 설계를 중심으로 설계이론에 대해 공부하고 이의 응용을 익힌다. 설계 시 기능적 사고를 강조하고 기능요구와 설계파라미터의 정의 방법을 배운다. 기능요구와 설계파라미터의 관계설정을 통해 좋은 설계를 도출하는 방법을 소개한다. 강의와 실습을 통해 설계 시 사고하는 방법, 해결하는 과정과 최종 마무리 방법을 공부한다. | ||||||

2 | 2 | COE2052 | Solid Mechanics | Compulsory Major | 3-3-0 | |

2 | 2 | COE3002 | Numerical Computation | Core Major | 3-3-0 | |

COE302 Numerial Computation An introduction to numerical method applicable to digital computation and to programmimg. Solving non-linear equations. Solving sets of equations. Interpolating polynomials. Numerical differentiation and integration. Numerical solution of ordinary differential equation.Boundary value problems.Curve fitting. | ||||||

2 | 2 | COE3053 | Engineering Mathematics 3 | Core Major | 3-3-0 | |

The folowing topics will be treated in this course. 1. Fourier analysis 2. The solution methods of partial differential equations 3. Complex analysis | ||||||

2 | 2 | DEE2040 | English Communication2-Beginning | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

This course will provide the students with ability-based classes: beginning, intermediate and advanced. The main goal of this course is to provide a strong knowledge base of English which you can build on in the future. We will focus on vocabulary, expressions, pronunciation and grammar. The students will be asked to converse and write on different topics each class, and also there will be chances for free talking and writing within the framework of the given lesson. | ||||||

2 | 2 | DEE2041 | English Communication2-Intermediate | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

This course will provide the students with ability-based classes: beginning, intermediate and advanced. The main goal of this course is to provide a strong knowledge base of English which you can build on in the future. We will focus on vocabulary, expressions, pronunciation and grammar. The students will be asked to converse and write on different topics each class, and also there will be chances for free talking and writing within the framework of the given lesson. | ||||||

2 | 2 | DEE2042 | English Communication2-Advanced | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

This course will provide the students with ability-based classes: beginning, intermediate and advanced. The main goal of this course is to provide a strong knowledge base of English which you can build on in the future. We will focus on vocabulary, expressions, pronunciation and grammar. The students will be asked to converse and write on different topics each class, and also there will be chances for free talking and writing within the framework of the given lesson. | ||||||

2 | 2 | EME2009 | Material & Design | Core Major | 3-3-0 | |

2 | 2 | MEE1002 | COMPUTER AIDED DRAFT AND DESIGN | Core Major | 2-0-4 | |

2 | 2 | MEE1003 | MECHANICAL MEASUREMENT | Core Major | 3-3-0 | |

This course is offered to students who have no previous experience in mechanical measurement. Characteristics of general measurement systems and fundamental statistics and basic data processing techniques including uncertainty analysis and data regression are introduced, so that students would be able to design measuring system and measurement process for the reliable test and assessment. | ||||||

2 | 2 | MEE2005 | Applied Thermodynamics & Design | Core Major | 3-3-0 | |

2 | 2 | MEE2006 | Introduction to Mechanical Design | Core Major | 3-2-2 | |

공학설계에 대해 일반적인 사항을 소개한다. 공리적 설계를 중심으로 설계이론에 대해 공부하고 이의 응용을 익힌다. 설계 시 기능적 사고를 강조하고 기능요구와 설계파라미터의 정의 방법을 배운다. 기능요구와 설계파라미터의 관계설정을 통해 좋은 설계를 도출하는 방법을 소개한다. 강의와 실습을 통해 설계 시 사고하는 방법, 해결하는 과정과 최종 마무리 방법을 공부한다. | ||||||

2 | 2 | COE2004 | Dynamics | Compulsory 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 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. | ||||||

2 | 2 | COE3053 | Engineering Mathematics 3 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |

The folowing topics will be treated in this course. 1. Fourier analysis 2. The solution methods of partial differential equations 3. Complex analysis | ||||||

2 | 2 | DEE2040 | English Communication2-Beginning | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

2 | 2 | DEE2041 | English Communication2-Intermediate | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

2 | 2 | DEE2042 | English Communication2-Advanced | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

2 | 2 | DEE2052 | English for Academic Purpose 2:Writing | Compulsory General Studies | 2-2-0 | |

2 | 2 | MEE1003 | MECHANICAL MEASUREMENT | Core Major | 3-3-0 | |

This course is offered to students who have no previous experience in mechanical measurement. Characteristics of general measurement systems and fundamental statistics and basic data processing techniques including uncertainty analysis and data regression are introduced, so that students would be able to design measuring system and measurement process for the reliable test and assessment. | ||||||

2 | 2 | MEE1004 | DESIGN APPLICATION OF SOLID MECHANICS | Compulsory Major | 3-3-0 | |

This class aims to study how to analyze and design mechanical structures under static loading conditions. This class introduces concepts of stress and strain, and examines how to calculate stress and strain under various loading conditions such as axial loading, torsional loading, bending moments, shear loading, and loading for buckling. We also study basic design strategies of mechanical structures using the concepts of stress and strain. Prerequisites for this class are Introductory physics 1, Statics, and Solid mechanics. | ||||||

2 | 2 | MEE2005 | Advanced Thermodynamics Design | Compulsory Major | 3-3-0 | |

2 | 2 | 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. | ||||||

2 | 2 | COE2004 | Dynamics | 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 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. | ||||||

2 | 2 | COE3053 | Engineering Mathematics 3 | Major Foundation Courses | 3-3-0 | |

The folowing topics will be treated in this course. 1. Fourier analysis 2. The solution methods of partial differential equations 3. Complex analysis | ||||||

2 | 2 | DEE2052 | English for Academic Purpose 2:Writing | Compulsory General Studies | 2-2-0 | |

English for Academic Purposes 2: Writing is tailored to benefit students’ English abilities related to their major and specific needs, and to connect to skills learned EAP 1. Essential planning, writing, and editing skills will be developed and topics may also include digital literacy or business writing. The aim of EAP 2 is to enhance compositional abilities which will be necessary in other course work and in future workplaces. | ||||||

2 | 2 | MEE1003 | MECHANICAL MEASUREMENT | Core Major | 3-3-0 | |

2 | 2 | MEE1004 | DESIGN APPLICATION OF SOLID MECHANICS | Core Major | 3-3-0 | |

This class aims to study how to analyze and design mechanical structures under static loading conditions. This class introduces concepts of stress and strain, and examines how to calculate stress and strain under various loading conditions such as axial loading, torsional loading, bending moments, shear loading, and loading for buckling. We also study basic design strategies of mechanical structures using the concepts of stress and strain. Prerequisites for this class are Introductory physics 1, Statics, and Solid mechanics. | ||||||

2 | 2 | MEE2005 | Advanced Thermodynamics Design | Core Major | 3-3-0 | |

2 | 2 | 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 | COE2004 | Dynamics | 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 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 | 1 | DME3051 | Mechanical Design | Core Major | 3-3-0 | |

Students will learn how to design the mechanical parts which are the basic elements for designing and manufacuring the mechanical system. Students will have term project to accomplish the actual design ability from the conceptual design to anaysis and synthesis. Major mechanical parts such as shaft, key and bearing willbe studied based on the basic material properties, failure theories, safety analysis, and behaviors. | ||||||

3 | 1 | ELE3059 | Electric & Electronic Engineering | Extended Major | 3-3-0 | |

This course is offered to students who want to have basic knowledge of electric and electronic engineering as a mechanical engineer who can work in mechatronics fields. Students will learn and understand as follows, 1) Fundamental circuit theories 2) Characteristics and basic principles of electric and electronic devices 3) Manufacturing processes and equipment of electronic devices. | ||||||

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 | MEE3079 | MEASUREMENT SYSTEM DESIGN | Extended Major | 3-3-0 | |

This course is offered to students who have basic knowledge for mechanical measurement. Students will learn reliability assessment techniques for mechanical measurements based on fundamental measurement theories, statistics, and uncertainty analysis techniques. To design and improve the high precision measurement system and process, students will be also guided to be able to understand and analyze the characteristics of measuring instruments and algorithms. | ||||||

3 | 1 | MEE3080 | APPLIED SOLID MECHANICS AND PRACTICE | Extended Major | 3-3-0 | |

The main structural members covered in this course include bars, shafts, beams and columns. The relationship between the applied loads and deformations for each member will be derived considering a force equilibrium condition, deformation conditions and material properties. The stresses developed in the member should not exceed the failure or yield criterion in order to ensure the safety. The failure/yield criterion is one of the most critical concepts in the mechanics of solids. | ||||||

3 | 1 | MEE3081 | ENGINEERING DESIGN AND APPLICATION | Core Major | 3-2-2 | |

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 | COE2004 | Dynamics | Compulsory Major | 3-3-0 | |

3 | 1 | 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 | 1 | DME3051 | Mechanical Design | Core Major | 3-3-0 | |

Students will learn how to design the mechanical parts which are the basic elements for designing and manufacuring the mechanical system. Students will have term project to accomplish the actual design ability from the conceptual design to anaysis and synthesis. Major mechanical parts such as shaft, key and bearing willbe studied based on the basic material properties, failure theories, safety analysis, and behaviors. | ||||||

3 | 1 | ELE3059 | Electric & Electronic Engineering | Extended Major | 3-3-0 | |

This course is offered to students who want to have basic knowledge of electric and electronic engineering as a mechanical engineer who can work in mechatronics fields. Students will learn and understand as follows, 1) Fundamental circuit theories 2) Characteristics and basic principles of electric and electronic devices 3) Manufacturing processes and equipment of electronic devices. | ||||||

3 | 1 | MEE3007 | Fluid Dynamics | Compulsory Major | 3-3-0 | |

3 | 1 | MEE3079 | MEASUREMENT SYSTEM DESIGN | Extended Major | 3-3-0 | |

This course is offered to students who have basic knowledge for mechanical measurement. Students will learn reliability assessment techniques for mechanical measurements based on fundamental measurement theories, statistics, and uncertainty analysis techniques. To design and improve the high precision measurement system and process, students will be also guided to be able to understand and analyze the characteristics of measuring instruments and algorithms. | ||||||

3 | 1 | MEE3080 | APPLIED SOLID MECHANICS AND PRACTICE | Extended Major | 3-3-0 | |

The main structural members covered in this course include bars, shafts, beams and columns. The relationship between the applied loads and deformations for each member will be derived considering a force equilibrium condition, deformation conditions and material properties. The stresses developed in the member should not exceed the failure or yield criterion in order to ensure the safety. The failure/yield criterion is one of the most critical concepts in the mechanics of solids. | ||||||

3 | 1 | MEE3081 | ENGINEERING DESIGN AND APPLICATION | Core Major | 3-2-2 | |

3 | 1 | PME2001 | Manufacturing Processes | Core Major | 3-3-0 | |

PME201 Manufacturing Processes Emphasis on the fundamentals of structure,production and properties of manufacturing 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 | ||||||

3 | 1 | VCC3001 | Career Competency development for Youth Employment Entrepreneurship | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |

This course supports Junior students to plan their specific career which is in accordance with student's future plan. This course also supports self-improvement and managing career in order to actualize their future plan. The class will be presented in large-scale divided by the major. It will provide the information about getting the jobs and the kind of skills to get a job sice the class will mainly focus on the characteristic of the major and major-related jobs. | ||||||

3 | 1 | COE3002 | Numerical Computation | Core Major | 3-3-0 | |

COE302 Numerial Computation An introduction to numerical method applicable to digital computation and to programmimg. Solving non-linear equations. Solving sets of equations. Interpolating polynomials. Numerical differentiation and integration. Numerical solution of ordinary differential equation.Boundary value problems.Curve fitting. | ||||||

3 | 1 | 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 | 1 | DME3004 | Manufacturing Processes Lab | Extended Major | 1-0-2 | |

The purpose of lessons learned from the Cutting machines for the engineering practice the design and manufacture of mechanical parts stand for a better understanding. | ||||||

3 | 1 | DME3051 | Mechanical Design | Core Major | 3-3-0 | |

Students will learn how to design the mechanical parts which are the basic elements for designing and manufacuring the mechanical system. Students will have term project to accomplish the actual design ability from the conceptual design to anaysis and synthesis. Major mechanical parts such as shaft, key and bearing willbe studied based on the basic material properties, failure theories, safety analysis, and behaviors. | ||||||

3 | 1 | MEE3014 | Applied Fluid Mechanics Design | Compulsory Major | 3-2-2 | |

Students can understand physical behaviors of fluids by using appropriate theoretical basis and mathmatical tools. However, students will also practice and analyze several fluid flow problems by using commercial CFD code, FLUENT. This lecture offers the student opportunities for further application of the principles learned early in the Fluid Dynamics, practical concerns such as dimensional analysis, similitude, differential analysis of fluid flow, potential flow theory, boundary layer theory, flow measurement, and aerodynamics drag and lift. The goal of this lecture is to raise your ability understanding and solving problems that might occur in industrial fields or research regions base on what you have learned. | ||||||

3 | 1 | MEE3081 | ENGINEERING DESIGN AND APPLICATION | Core Major | 3-2-2 | |

3 | 1 | MEE3085 | Measurement System Design and Application | Extended Major | 3-3-0 | |

3 | 1 | MEE4100 | Mechanical Engineering Lab Practice 1 | Extended Major | 1-0-1 | |

3 | 1 | PME2001 | Manufacturing Processes | Core Major | 3-3-0 | |

PME201 Manufacturing Processes Emphasis on the fundamentals of structure,production and properties of manufacturing 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 | ||||||

3 | 1 | COE3002 | Numerical Computation | Core Major | 3-3-0 | |

COE302 Numerial Computation An introduction to numerical method applicable to digital computation and to programmimg. Solving non-linear equations. Solving sets of equations. Interpolating polynomials. Numerical differentiation and integration. Numerical solution of ordinary differential equation.Boundary value problems.Curve fitting. | ||||||

3 | 1 | 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 | 1 | DME3004 | Manufacturing Processes Lab | Extended Major | 1-0-2 | |

The purpose of lessons learned from the Cutting machines for the engineering practice the design and manufacture of mechanical parts stand for a better understanding. | ||||||

3 | 1 | DME3051 | Mechanical Design | Core Major | 3-3-0 | |

3 | 1 | MEE3014 | Applied Fluid Mechanics Design | Core Major | 3-2-2 | |

Students can understand physical behaviors of fluids by using appropriate theoretical basis and mathmatical tools. However, students will also practice and analyze several fluid flow problems by using commercial CFD code, FLUENT. This lecture offers the student opportunities for further application of the principles learned early in the Fluid Dynamics, practical concerns such as dimensional analysis, similitude, differential analysis of fluid flow, potential flow theory, boundary layer theory, flow measurement, and aerodynamics drag and lift. The goal of this lecture is to raise your ability understanding and solving problems that might occur in industrial fields or research regions base on what you have learned. | ||||||

3 | 1 | MEE3081 | ENGINEERING DESIGN AND APPLICATION | Core Major | 3-2-2 | |

3 | 1 | MEE3085 | Measurement System Design and Application | Extended Major | 3-3-0 | |

3 | 1 | MEE4100 | Mechanical Engineering Lab Practice 1 | Extended Major | 1-0-1 | |

3 | 1 | PME2001 | Manufacturing Processes | Core Major | 3-3-0 | |

PME201 Manufacturing Processes Emphasis on the fundamentals of structure,production and properties of manufacturing 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 | ||||||

3 | 2 | CSE4012 | Computer Aided Design | Extended Major | 3-2-2 | |

3 | 2 | DME3003 | Design and Analysis of Dynamic Systems | Extended Major | 3-3-0 | |

This course deals with the mathematical modeling and analysis of the electrical, mechanical, and control systems by applying the circuit theory, electromagnetic theory, and dynamics; and programing and simulation of the systems using Matlab/SimuLink. This course also deals with the linear system analysis in the time domain and frequency domain and the introduction to feedback control systems. | ||||||

3 | 2 | DME3004 | Manufacturing Processes Lab | Core Major | 1-0-3 | |

The purpose of lessons learned from the Cutting machines for the engineering practice the design and manufacture of mechanical parts stand for a better understanding. | ||||||

3 | 2 | DME3052 | Machine Elements Design | Extended Major | 3-2-2 | |

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 | 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 | MEE1007 | MECHANICAL CAPSTONE DESIGN1 | Extended Major | 3-1-4 | |

3 | 2 | MEE3013 | Machining Processes & Design | Extended Major | 3-3-0 | |

MEE313 Mechining Processes and Design Metal cutting;emphasis on the principle of chip removal and the machine work of machine tools. Specific objectives: the mechanics of metal cutting, cutting tools, single and mutiple point machine tools, abrasive machining and nontraditional machining. | ||||||

3 | 2 | MEE3014 | Applied Fluid Mechanics & Design | Core Major | 3-2-2 | |

Students can understand physical behaviors of fluids by using appropriate theoretical basis and mathmatical tools. However, students will also practice and analyze several fluid flow problems by using commercial CFD code, FLUENT. This lecture offers the student opportunities for further application of the principles learned early in the Fluid Dynamics, practical concerns such as dimensional analysis, similitude, differential analysis of fluid flow, potential flow theory, boundary layer theory, flow measurement, and aerodynamics drag and lift. The goal of this lecture is to raise your ability understanding and solving problems that might occur in industrial fields or research regions base on what you have learned. | ||||||

3 | 2 | MEE3082 | ENGINEERING DESIGN AND APPLICATION | Core Major | 3-2-2 | |

3 | 2 | MEE4001 | Heat Transfer | Core Major | 3-3-0 | |

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. Each team consisting of 3~4 students performs heat-transfer project assigned by the professor and submit the followed by evaluation. | ||||||

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 | DME3004 | Manufacturing Processes Lab | Core Major | 1-0-3 | |

3 | 2 | DME3052 | Machine Elements Design | Extended Major | 3-2-2 | |

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 | MEE1007 | MECHANICAL CAPSTONE DESIGN1 | Extended Major | 3-1-4 | |

3 | 2 | MEE3013 | Machining Processes & Design | Extended Major | 3-3-0 | |

Metal cutting and non-traditional machining including basic principles of related machine tools. | ||||||

3 | 2 | MEE3014 | Applied Fluid Mechanics & Design | Core Major | 3-2-2 | |

3 | 2 | MEE3082 | ENGINEERING DESIGN AND APPLICATION | Core Major | 3-2-2 | |

3 | 2 | MEE3085 | Measurement System Design and Application | Extended Major | 3-3-0 | |

3 | 2 | MEE4001 | Heat Transfer | Core Major | 3-3-0 | |

Topics to be covered include: derivation of the heat conduction equation, analytic and numerical method for steady and unsteady conduction heat transfer, principle of the convective heat transfer, experimental relationship of natural and forced convective heat transfer, principle of radiative heat transfer, calculation of shape factor and radiative heat transfer between black body and non-black body, types of heat exchangers, design of a heat exchanger with LMTD and e-NTU method | ||||||

3 | 2 | PME3002 | Mechanical Vibration | Core Major | 3-3-0 | |

The main objective of this course is to develop in the engineering student the ability to analyze the small oscillatory motion of bodies and forces associated with them. The methodologies to idealize physical systems into mathematical equations, solve mathematical equation, and identify the characteristics of the system are introduced. The natural frequencies and mode shapes are the key characteristics to be identified in the analysis. Eigenvalue analysis techniques and methods such as Laplace and Fourier transform to solve differential equations are introduced. Modern computational methods are also introduced in this course. | ||||||

3 | 2 | MEE1007 | MECHANICAL CAPSTONE DESIGN1 | Extended Major | 3-1-4 | |

3 | 2 | MEE3013 | Machining Processes & Design | Extended Major | 3-3-0 | |

Metal cutting and non-traditional machining including basic principles of related machine tools. | ||||||

3 | 2 | MEE3082 | ENGINEERING DESIGN AND APPLICATION | Extended Major | 3-2-2 | |

3 | 2 | MEE4001 | Heat Transfer | Core Major | 3-3-0 | |

Topics to be covered include: derivation of the heat conduction equation, analytic and numerical method for steady and unsteady conduction heat transfer, principle of the convective heat transfer, experimental relationship of natural and forced convective heat transfer, principle of radiative heat transfer, calculation of shape factor and radiative heat transfer between black body and non-black body, types of heat exchangers, design of a heat exchanger with LMTD and e-NTU method | ||||||

3 | 2 | MEE4089 | machining processes lab | Extended Major | 2-0-4 | |

3 | 2 | MEE4101 | Mechanical Engineering Lab Practice 2 | Extended Major | 1-0-1 | |

3 | 2 | PME3002 | Mechanical Vibration | Core Major | 3-3-0 | |

The main objective of this course is to develop in the engineering student the ability to analyze the small oscillatory motion of bodies and forces associated with them. The methodologies to idealize physical systems into mathematical equations, solve mathematical equation, and identify the characteristics of the system are introduced. The natural frequencies and mode shapes are the key characteristics to be identified in the analysis. Eigenvalue analysis techniques and methods such as Laplace and Fourier transform to solve differential equations are introduced. Modern computational methods are also introduced in this course. | ||||||

3 | 2 | VCC3003 | IC-PBL & Competency development | (Compulsory) Requirement in Fundamental Studies | 1-1-0 | |

학생들의 사회진출 및 취업경쟁력 향상을 지원하는 수업으로, 온라인 강의와 더불어 전공교수와의 지속적인 상담 및 교내외 타 경력개발관련 프로그램과의 유기적인 연계활동을 통해 사회진출 역량을 배가시키는 수업임. 진로 및 취업상담 및 각종 역량진단 테스트와 기본적인 취업준비 스킬에 대한 대규모 비정규 교과 강의를 병행하여 진행함. | ||||||

3 | 2 | MEE1007 | MECHANICAL CAPSTONE DESIGN1 | Extended Major | 3-1-4 | |

3 | 2 | MEE3013 | Machining Processes & Design | Extended Major | 3-3-0 | |

Metal cutting and non-traditional machining including basic principles of related machine tools. | ||||||

3 | 2 | MEE3082 | ENGINEERING DESIGN AND APPLICATION | Extended Major | 3-2-2 | |

3 | 2 | MEE4001 | Heat Transfer | Core Major | 3-3-0 | |

Topics to be covered include: derivation of the heat conduction equation, analytic and numerical method for steady and unsteady conduction heat transfer, principle of the convective heat transfer, experimental relationship of natural and forced convective heat transfer, principle of radiative heat transfer, calculation of shape factor and radiative heat transfer between black body and non-black body, types of heat exchangers, design of a heat exchanger with LMTD and e-NTU method | ||||||

3 | 2 | MEE4089 | machining processes lab | Extended Major | 2-0-4 | |

3 | 2 | MEE4101 | Mechanical Engineering Lab Practice 2 | Extended Major | 1-0-1 | |

3 | 2 | PME3002 | Mechanical Vibration | Core Major | 3-3-0 | |

The main objective of this course is to develop in the engineering student the ability to analyze the small oscillatory motion of bodies and forces associated with them. The methodologies to idealize physical systems into mathematical equations, solve mathematical equation, and identify the characteristics of the system are introduced. The natural frequencies and mode shapes are the key characteristics to be identified in the analysis. Eigenvalue analysis techniques and methods such as Laplace and Fourier transform to solve differential equations are introduced. Modern computational methods are also introduced in this course. | ||||||

3 | 2 | VCC3003 | IC-PBL & Competency development | Compulsory General Studies | 1-1-0 | |

This class is to teach students to advance their social skills and improve their careee competitiveness. Also this lecture is linked to ongoing counseling with professors of students' Major, on-line program and related to other career development programs. This lesson is conducted with a series of lectures on courses and skills related to career advancement, job counseling, and basic skills for basic job preparation skills. | ||||||

4 | 1 | MEE1008 | MECHANICAL CAPSTONE DESIGN2 | Extended Major | 3-1-4 | |

4 | 1 | MEE4010 | Mechanics of Machinery | Extended Major | 3-3-0 | |

This course provides students with advanced vibration theories, numerical computations, vibration suppression designs and experimental methods. More detailed contents of the courses are as follows: (1) Advanced vibration theories - Lagrange’s Equation - Vibration of continuous systems (2) Design for vibration suppression - Design for vibration isolation and absorption - Critical speed of rotating disks - Active vibration suppression (3) Vibration testing and measurement - Vibration measurement systems - Measurement of damping - Experimental modal analysis (4) Finite element method - Solid modeling and mesh generation - Computational modal analysis | ||||||

4 | 1 | MEE4039 | Thermal System Design | Extended Major | 3-2-2 | |

MEE439 Design of Thermal System Designing a workable system. Modeling thermal equipment: system simulation; optimization;mathematical modeling;thermodynamocs properties;steady-state simulation of large systems; dynamic gehavior of thermal systems | ||||||

4 | 1 | MEE4041 | Combustion Engine Design | Extended Major | 3-2-2 | |

MEE441 Combution Engine This course offers the principle of operating and structure of the gasoline and diesel engine system. In addition, this subject provides analysis ability for design parameters effects on engine performances such as power, fuel economy and emission. | ||||||

4 | 1 | MEE4043 | Elasticity & Design | Extended Major | 3-3-0 | |

MEE443 Elasticity and Design 3-D stress and strain systems of deformable bodies are studied in the elasic and plastic states. Force and moment equilibrium equations, Cauchy's equations, transformation rules, principal planes, compliance and constitutive relations, failure criterion, flow rules, elastic-plastic analysis method, limit design, and plastic working examples are discussed | ||||||

4 | 1 | MEE4046 | Methods for Design Practice | Extended Major | 3-2-2 | |

기본적으로 실제문제를 해결하는 설계방법론들과 그 응용을 익힌다. 학기의 전반부에서는 일반적인 최적설계방법을 배운다. 최적설계의 수학적 이론 및 수치적 알고리듬을 공부하는데 문제 해결 과정에서 이론들을 깨닫도록 한다. 후반부에서는 유한요소법을 간단히 소개한 후 구조최적설계를 공부하는데 실제적인 설계문제를 해결하는 방법을 모색한다. | ||||||

4 | 1 | MEE4047 | Robot Control Theory and Practice | Extended Major | 3-2-2 | |

.. | ||||||

4 | 1 | MEE4082 | Advanced Finite Element Method | Extended Major | 3-2-2 | |

This course is offered to students who have no previous experience in finite element method (FEM). The principles & theory of FEM, which is nowadays widely used in structural analysis, will be introduced in lectures, so that students would be able to solve relatively complex problems using FEM. Starting from 1-dimensional cases, students will gradually acquire understanding of FEM theory in 2- or 3-dimensional cases, and eventually they will be able to develop simple FEM programs. This course also provides students with opportunities to practice on commercial FEA programs, which are powerful tools for CAE engineers. | ||||||

4 | 1 | MEE4089 | machining processes lab | Core Major | 1-0-3 | |

Machining and CNC practicing lab. for senior students. | ||||||

4 | 1 | MEE4090 | Fabrication Process | Extended Major | 3-3-0 | |

Whole processes, that are needed to fabricate the machine parts and transducers for the advanced machines, automobiles, plants, semiconductors, and displayer are learning in this course. Major contents are first the basic understanding of physical and chemical fundamentals concerning to the process, such as vacuum, plasma, etc., Theoretical study for detail process of welding, injection, sintering, lithography, deposition, etching, etc. are also dealt with. Global comprehension through the application study about automobiles or semiconductors is the goal. | ||||||

4 | 1 | MEE4091 | Renewable Energy | Extended Major | 3-3-0 | |

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 | MEE1008 | MECHANICAL CAPSTONE DESIGN2 | Extended Major | 3-1-4 | |

4 | 1 | MEE4010 | Mechanics of Machinery | Extended Major | 3-3-0 | |

This course provides students with advanced vibration theories, numerical computations, vibration suppression designs and experimental methods. More detailed contents of the courses are as follows: (1) Advanced vibration theories - Lagrange’s Equation - Vibration of continuous systems (2) Design for vibration suppression - Design for vibration isolation and absorption - Critical speed of rotating disks - Active vibration suppression (3) Vibration testing and measurement - Vibration measurement systems - Measurement of damping - Experimental modal analysis (4) Finite element method - Solid modeling and mesh generation - Computational modal analysis | ||||||

4 | 1 | MEE4039 | Thermal System Design | Extended Major | 3-2-2 | |

Students will learn how to apply the principles of thermodynamics, heat transfer, and fluid mechanics to the thermal system design. Emphasis of this course will be on system design, where a system is defined as a collection of components with interrelated performance. | ||||||

4 | 1 | MEE4041 | Combustion Engine Design | Extended Major | 3-2-2 | |

MEE441 Combution Engine This course offers the principle of operating and structure of the gasoline and diesel engine system. In addition, this subject provides analysis ability for design parameters effects on engine performances such as power, fuel economy and emission. | ||||||

4 | 1 | MEE4043 | Elasticity & Design | Extended Major | 3-3-0 | |

MEE443 Elasticity and Design 3-D stress and strain systems of deformable bodies are studied in the elasic and plastic states. Force and moment equilibrium equations, Cauchy's equations, transformation rules, principal planes, compliance and constitutive relations, failure criterion, flow rules, elastic-plastic analysis method, limit design, and plastic working examples are discussed | ||||||

4 | 1 | MEE4046 | Methods for Design Practice | Extended Major | 3-2-2 | |

기본적으로 실제문제를 해결하는 설계방법론들과 그 응용을 익힌다. 학기의 전반부에서는 일반적인 최적설계방법을 배운다. 최적설계의 수학적 이론 및 수치적 알고리듬을 공부하는데 문제 해결 과정에서 이론들을 깨닫도록 한다. 후반부에서는 유한요소법을 간단히 소개한 후 구조최적설계를 공부하는데 실제적인 설계문제를 해결하는 방법을 모색한다. | ||||||

4 | 1 | MEE4047 | Robot Control Theory and Practice | Extended Major | 3-2-2 | |

.. | ||||||

4 | 1 | MEE4082 | Advanced Finite Element Method | Extended Major | 3-2-2 | |

This course is offered to students who have no previous experience in finite element method (FEM). The principles & theory of FEM, which is nowadays widely used in structural analysis, will be introduced in lectures, so that students would be able to solve relatively complex problems using FEM. Starting from 1-dimensional cases, students will gradually acquire understanding of FEM theory in 2- or 3-dimensional cases, and eventually they will be able to develop simple FEM programs. This course also provides students with opportunities to practice on commercial FEA programs, which are powerful tools for CAE engineers. | ||||||

4 | 1 | MEE4089 | machining processes lab | Extended Major | 1-0-3 | |

Machining and CNC practicing lab. for senior students. | ||||||

4 | 1 | MEE4090 | Mechanical fusion fabrication process design | Extended Major | 3-3-0 | |

Whole processes, that are needed to fabricate the machine parts and transducers for the advanced machines, automobiles, plants, semiconductors, and displayer are learning in this course. Major contents are first the basic understanding of physical and chemical fundamentals concerning to the process, such as vacuum, plasma, etc., Theoretical study for detail process of welding, injection, sintering, lithography, deposition, etching, etc. are also dealt with. Global comprehension through the application study about automobiles or semiconductors is the goal. | ||||||

4 | 1 | MEE4091 | Renewable Energy | Extended Major | 3-3-0 | |

4 | 1 | MEE4095 | Special Topics in Mechanical Engineering | Extended Major | 1-1-0 | |

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 | MEE1008 | MECHANICAL CAPSTONE DESIGN2 | Extended Major | 3-1-4 | |

4 | 1 | MEE4010 | Mechanics of Machinery | Extended Major | 3-3-0 | |

This course provides students with advanced vibration theories, numerical computations, vibration suppression designs and experimental methods. More detailed contents of the courses are as follows: (1) Advanced vibration theories - Lagrange’s Equation - Vibration of continuous systems (2) Design for vibration suppression - Design for vibration isolation and absorption - Critical speed of rotating disks - Active vibration suppression (3) Vibration testing and measurement - Vibration measurement systems - Measurement of damping - Experimental modal analysis (4) Finite element method - Solid modeling and mesh generation - Computational modal analysis | ||||||

4 | 1 | MEE4033 | Turbomachinery Design | Extended Major | 3-2-2 | |

The range of this lecture covers the basic principles of turbomachinery and its design concept. Topics include: energy of fluids and its transformation, physical process inside a turbomachinery passage, axial or centrifugal flow compressors and fans, relationship to cavitation in pumps and performance evaluation of turbomachinery. | ||||||

4 | 1 | MEE4039 | Thermal System Design | Extended Major | 3-2-2 | |

Students will learn how to apply the principles of thermodynamics, heat transfer, and fluid mechanics to the thermal system design. Emphasis of this course will be on system design, where a system is defined as a collection of components with interrelated performance. | ||||||

4 | 1 | MEE4082 | Advanced Finite Element Method | Extended Major | 3-2-2 | |

This course is offered to students who have no previous experience in finite element method (FEM). The principles & theory of FEM, which is nowadays widely used in structural analysis, will be introduced in lectures, so that students would be able to solve relatively complex problems using FEM. Starting from 1-dimensional cases, students will gradually acquire understanding of FEM theory in 2- or 3-dimensional cases, and eventually they will be able to develop simple FEM programs. This course also provides students with opportunities to practice on commercial FEA programs, which are powerful tools for CAE engineers. | ||||||

4 | 1 | MEE4095 | Special Topics in Mechanical Engineering | Extended Major | 1-1-0 | |

This class will cover comprehensive topics on practical applications and examples of current interests and research trends in mechanical engineering. | ||||||

4 | 1 | MEE4102 | Mechanical Engineering Lab Practice 3 | Extended Major | 1-0-1 | |

4 | 1 | ENE4054 | Automatic Control | Extended Major | 3-3-0 | |

4 | 1 | MEE1008 | MECHANICAL CAPSTONE DESIGN2 | Extended Major | 3-1-4 | |

4 | 1 | MEE4010 | Mechanics of Machinery | Extended Major | 3-3-0 | |

4 | 1 | MEE4033 | Turbomachinery Design | Extended Major | 3-2-2 | |

The range of this lecture covers the basic principles of turbomachinery and its design concept. Topics include: energy of fluids and its transformation, physical process inside a turbomachinery passage, axial or centrifugal flow compressors and fans, relationship to cavitation in pumps and performance evaluation of turbomachinery. | ||||||

4 | 1 | MEE4039 | Thermal System Design | Extended Major | 3-2-2 | |

Students will learn how to apply the principles of thermodynamics, heat transfer, and fluid mechanics to the thermal system design. Emphasis of this course will be on system design, where a system is defined as a collection of components with interrelated performance. | ||||||

4 | 1 | MEE4082 | Advanced Finite Element Method | Extended Major | 3-2-2 | |

4 | 1 | MEE4095 | Special Topics in Mechanical Engineering | Extended Major | 1-1-0 | |

This class will cover comprehensive topics on practical applications and examples of current interests and research trends in mechanical engineering. | ||||||

4 | 1 | MEE4102 | Mechanical Engineering Lab Practice 3 | Extended Major | 1-0-1 | |

4 | 2 | COE4001 | CAPSTONE DESIGN3 | Extended Major | 3-2-2 | |

This course is intended for an interdisciplinary civil and environmental design experience. Students are requested to do problem definition, data acquisition, modeling and analysis, evaluation of design alternatives for the design of civil structures. Students also show oral and written presentation of final design. | ||||||

4 | 2 | MEE4005 | Airconditioning & Refrigeration | Extended Major | 3-3-0 | |

A comfortable and healthier environment is now considered in many areas, i.e., offices, public places, and houses. And many high precision products may not exist without precise control of temperature, humidity, and contaminants. Therefore most of industrial buildings and offices are designed to control the indoor environments. In this course, thermodynamics and fluid dynamics based air conditioning methods, heating & cooling loads calculations. air distribution and supply systems, contamination control methods will be covered. | ||||||

4 | 2 | MEE4033 | Turbomachinery Design | Extended Major | 3-2-2 | |

The range of this lecture covers the basic principles of turbomachinery and its design concept. Topics include: energy of fluids and its transformation, physical process inside a turbomachinery passage, axial or centrifugal flow compressors and fans, relationship to cavitation in pumps and performance evaluation of turbomachinery. | ||||||

4 | 2 | MEE4092 | Transportation Machinery Design | Extended Major | 3-3-0 | |

4 | 2 | COE4001 | CAPSTONE DESIGN3 | Extended Major | 3-2-2 | |

This course is intended for an interdisciplinary civil and environmental design experience. Students are requested to do problem definition, data acquisition, modeling and analysis, evaluation of design alternatives for the design of civil structures. Students also show oral and written presentation of final design. | ||||||

4 | 2 | MEE4005 | Airconditioning & Refrigeration | Extended Major | 3-3-0 | |

A comfortable and healthier environment is now considered in many areas, i.e., offices, public places, and houses. And many high precision products may not exist without precise control of temperature, humidity, and contaminants. Therefore most of industrial buildings and offices are designed to control the indoor environments. In this course, thermodynamics and fluid dynamics based air conditioning methods, heating & cooling loads calculations. air distribution and supply systems, contamination control methods will be covered. | ||||||

4 | 2 | MEE4033 | Turbomachinery Design | Extended Major | 3-2-2 | |

4 | 2 | MEE4092 | Transportation Machinery Design | Extended Major | 3-3-0 | |

4 | 2 | MEE1009 | Mechanical Capstone Design3 | Extended Major | 3-1-4 | |

4 | 2 | MEE4041 | Combustion Engine Design | Extended Major | 3-2-2 | |

MEE441 Combution Engine This course offers the principle of operating and structure of the gasoline and diesel engine system. In addition, this subject provides analysis ability for design parameters effects on engine performances such as power, fuel economy and emission. | ||||||

4 | 2 | MEE4043 | Elasticity & Design | Extended Major | 3-3-0 | |

MEE443 Elasticity and Design 3-D stress and strain systems of deformable bodies are studied in the elasic and plastic states. Force and moment equilibrium equations, Cauchy's equations, transformation rules, principal planes, compliance and constitutive relations, failure criterion, flow rules, elastic-plastic analysis method, limit design, and plastic working examples are discussed | ||||||

4 | 2 | MEE4046 | Methods for Design Practice | Extended Major | 3-2-2 | |

기본적으로 실제문제를 해결하는 설계방법론들과 그 응용을 익힌다. 학기의 전반부에서는 일반적인 최적설계방법을 배운다. 최적설계의 수학적 이론 및 수치적 알고리듬을 공부하는데 문제 해결 과정에서 이론들을 깨닫도록 한다. 후반부에서는 유한요소법을 간단히 소개한 후 구조최적설계를 공부하는데 실제적인 설계문제를 해결하는 방법을 모색한다. | ||||||

4 | 2 | MEE4090 | Mechanical fusion fabrication process design | Extended Major | 3-3-0 | |

Whole processes, that are needed to fabricate the machine parts and transducers for the advanced machines, automobiles, plants, semiconductors, and displayer are learning in this course. Major contents are first the basic understanding of physical and chemical fundamentals concerning to the process, such as vacuum, plasma, etc., Theoretical study for detail process of welding, injection, sintering, lithography, deposition, etching, etc. are also dealt with. Global comprehension through the application study about automobiles or semiconductors is the goal. | ||||||

4 | 2 | MEE4092 | Transportation Machinery Design | Extended Major | 3-3-0 | |

4 | 2 | MEE4093 | Applied Machinery System Design | Extended Major | 3-3-0 | |

4 | 2 | MEE4094 | Fusion Machinery Design | Extended Major | 3-3-0 | |

This class covers machine design based on interdisciplinary research fields that span mechanical engineering, biology, physics, chemistry, nanotechnology, electrical engineering, and so on. The class focuses on micro/nano-scale machines because interdisciplinary mechanisms are more important in small scales. In detail, the class introduces Transduction principles, Scaling laws, Sensory systems in living creatures, Nanomaterials, Electrostatic & other microactuators, Cell-based soft robotics, and Microfluidic systems. | ||||||

4 | 2 | MEE4103 | Mechanical Engineering Lab Practice 4 | Extended Major | 1-0-1 | |

4 | 2 | MEE1009 | Mechanical Capstone Design3 | Extended Major | 3-1-4 | |

4 | 2 | MEE4041 | Combustion Engine Design | Extended Major | 3-2-2 | |

4 | 2 | MEE4043 | Elasticity & Design | Extended Major | 3-3-0 | |

4 | 2 | MEE4046 | Methods for Design Practice | Extended Major | 3-2-2 | |

4 | 2 | MEE4090 | Mechanical fusion fabrication process design | Extended Major | 3-3-0 | |

4 | 2 | MEE4092 | Transportation Machinery Design | Extended Major | 3-3-0 | |

4 | 2 | MEE4093 | Applied Machinery System Design | Extended Major | 3-3-0 | |

4 | 2 | MEE4094 | Fusion Machinery Design | Extended Major | 3-3-0 | |

This class covers machine design based on interdisciplinary research fields that span mechanical engineering, biology, physics, chemistry, nanotechnology, electrical engineering, and so on. The class focuses on micro/nano-scale machines because interdisciplinary mechanisms are more important in small scales. In detail, the class introduces Transduction principles, Scaling laws, Sensory systems in living creatures, Nanomaterials, Electrostatic & other microactuators, Cell-based soft robotics, and Microfluidic systems. | ||||||

4 | 2 | MEE4103 | Mechanical Engineering Lab Practice 4 | Extended Major | 1-0-1 | |