材料化工工学系
College Of Engineering Sciences Department Of Materials Science And Chemical Engineering
位置 | |||
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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 |
![]() 朴鍾震 / Emeritus Professor | ![]() 朴隆晧 / Professor |
![]() 張瑛郁 / Professor | ![]() 金鍾烈 / Professor |
![]() 朴眞求 / Professor | ![]() 左容昊 / Professor |
![]() 李政昊 / Professor | ![]() 李善榮 / Professor |
![]() 趙容佑 / Professor | ![]() 柳奉寧 / Professor |
![]() Kim, Jong-Ho / Professor | ![]() Manwar Hussain / Professor |
![]() 朴柱炫 / Professor | ![]() CHO, KUK YOUNG / Professor |
![]() 金兌炫 / Professor | ![]() 劉曉鍾 / Professor |
![]() 朴太柱 / Associate Professor | ![]() 安智勳 / Associate Professor |
![]() 李花聖 / Associate Professor | ![]() 金宇熙 / Assistant Professor |
![]() 金珍敬 / Assistant Professor | ![]() Park Jihwan / Adjunct Professor |
![]() Choi Don Chul / Adjunct Professor | ![]() Manabu Tsujimura / Honorary Professor |
![]() 이양수 / Visiting Scholar Professor | ![]() 孟琁在 / Emeritus Professor |
![]() 李完宰 / Emeritus Professor | ![]() 南泰運 / Emeritus Professor |
![]() 裴星烈 / Emeritus Professor | ![]() 盧時台 / Emeritus Professor |
![]() 李載星 / Emeritus Professor | ![]() 申東赫 / Emeritus Professor |
![]() 姜信春 / Emeritus Professor | ![]() 金奎泳 / Honorary Professor |
![]() 金喜澤 / Collaboration Professor | ![]() 김경태 / Institute Adjunct Professor |
![]() 김영국 / Institute Adjunct Professor | ![]() 나종주 / Institute Adjunct Professor |
![]() 양상선 / Institute Adjunct Professor | ![]() 이상복 / Institute Adjunct Professor |
![]() 이정구 / Institute Adjunct Professor | ![]() 임동찬 / Institute Adjunct Professor |
![]() 최철진 / Institute Adjunct Professor | ![]() Chang-kyu, Park / Adjunct Professor |
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 | 3-3-0 | |
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 | 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 | 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 | COE2022 | Introduction to Engineering Design | Extended Major | 2-1-2 | |
- Introduction to the Engineering Profession - Preparing for an Engineering Career - Introduction to Engineering Design - Engineering Communication - Engineering Ethics - Fundamental Dimensions and Units - Length and Length-Related Parameters - Time and Time-Related Parameters - Mass and Mass-Related Parameters | ||||||
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 | 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 | 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 | |
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 | COE2022 | Introduction to Engineering Design | Extended Major | 2-1-2 | |
- Introduction to the Engineering Profession - Preparing for an Engineering Career - Introduction to Engineering Design - Engineering Communication - Engineering Ethics - Fundamental Dimensions and Units - Length and Length-Related Parameters - Time and Time-Related Parameters - Mass and Mass-Related Parameters | ||||||
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 | |
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 | Major Foundation Courses | 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 | Major Foundation Courses | 3-3-0 | |
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 | COE2022 | Introduction to Engineering Design | Core Major | 2-1-2 | |
- Introduction to the Engineering Profession - Preparing for an Engineering Career - Introduction to Engineering Design - Engineering Communication - Engineering Ethics - Fundamental Dimensions and Units - Length and Length-Related Parameters - Time and Time-Related Parameters - Mass and Mass-Related Parameters | ||||||
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 | 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 | 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 | CUL0106 | UNDERSTANDING SOFTWARE | (Compulsory) Requirement in Fundamental Studies | 1-1-0 | |
1 | 2 | GEN0064 | General Physics 2 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
1 | 2 | GEN0067 | General Physics Lab. 2 | (Compulsory) Requirement in Fundamental Studies | 1-0-2 | |
1 | 2 | GEN0069 | General Chemistry 2 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
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 | 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 | 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 | CUL0106 | UNDERSTANDING SOFTWARE | Compulsory General Studies | 1-1-0 | |
1 | 2 | GEN0064 | General Physics 2 | Major Foundation Courses | 3-3-0 | |
1 | 2 | GEN0067 | General Physics Lab. 2 | Major Foundation Courses | 1-0-2 | |
1 | 2 | GEN0069 | General Chemistry 2 | Major Foundation Courses | 3-3-0 | |
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 | Major Foundation Courses | 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 | 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. | ||||||
2 | 1 | CHE2001 | Industrial Physical Chemistry 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
Chemical thermodynamics: fundamental principles, Gibbsial equations, equilibrium conditions. Introduction to statistical mechanics: molecular theory of matter and heat transport phenomena in gases, Boltzman distribution law, partition functions for ideal gases. Introduction to chemical kinetics: measurement of rates of reactions, relationship between rate and reaction mechanism, transition-state theory of reaction rates. Quantum chemistry: basic principles of wave mechanics, the harmonic oscillator, the rigid rotator, infrared and microwave spectroscopy. | ||||||
2 | 1 | CHE2003 | Chemical Engineering Stoichiometry | Core Major | 3-3-0 | |
CHE203 Chemical Engineering Stoichiometry In this subject, we will understand first the concept of unit that is of importance in the engineering calculation, followed by those of temperaure and pressure. Material balance for a given process is then studied together with the properties of gas, liquid, and solid. The mutual conversion between the SI unit and the F.P.S. unit is also treated to enhance the ability of engineering calculation in the industrial plants. | ||||||
2 | 1 | COE3051 | Engineering Mathematics 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
This course deals with modeling of engineering phenomena, and studies fundamental mathematical methods to analyze and understand the mathematical models. Specifically, solution methods for the first-order and second-order differential equations are treated. Also solution methods for systems that consists of several coupled differential equations are introduced. Lastly, Laplace transform is studied as an alternative method to solve for the differential equations. The students are taught to apply these concepts to real applications. | ||||||
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 | ICH2001 | Industrial Organic Chemistry 1 | Compulsory Major | 3-3-0 | |
Organic chemistry is one of the most important courses in chemical engineering. In general, materials can be divided into two classes; that is organic and inorganic materials. The organic materials covers wide ranges from synthetic polymers, petroleum chemicals as well as most medicines, DNAs, proteins, lipids and carbohydrates. It is essencial to have knowledges on the properties and reactions of organic compounds in order to understand and apply these organic-based materials. Organic chemistry provides these informations and Organic Chemistry 1 deals the origin of organic chemistry, structures and properties of organic compounds as well as stereochmistry and basic organic reactions such as substitution and addition reactions. | ||||||
2 | 1 | MAE2001 | Materials Science 1 | Compulsory Major | 3-3-0 | |
Physical properties of engineering materials: electron theory in solids, electronic conduction, charcteristics of junctions, magnetics, optical properties and dielectrics. | ||||||
2 | 1 | MMS2003 | Introduction to Solid State Physics | Core Major | 3-3-0 | |
Thorough understanding of the materials science must require a knowledge of the solid-state physics and the basic quantum mechanics. For this reason, the necessary basic modern physics to materials science lecture aims. The content of the unit is configured to describe the structure, basic quantum mechanics, the wave properties, the nature of the crystals and the bonding characteristics of the atom. | ||||||
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 | CHE2001 | Industrial Physical Chemistry 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
Chemical thermodynamics: fundamental principles, Gibbsial equations, equilibrium conditions. Introduction to statistical mechanics: molecular theory of matter and heat transport phenomena in gases, Boltzman distribution law, partition functions for ideal gases. Introduction to chemical kinetics: measurement of rates of reactions, relationship between rate and reaction mechanism, transition-state theory of reaction rates. Quantum chemistry: basic principles of wave mechanics, the harmonic oscillator, the rigid rotator, infrared and microwave spectroscopy. | ||||||
2 | 1 | CHE2003 | Chemical Engineering Stoichiometry | Core Major | 3-3-0 | |
CHE203 Chemical Engineering Stoichiometry In this subject, we will understand first the concept of unit that is of importance in the engineering calculation, followed by those of temperaure and pressure. Material balance for a given process is then studied together with the properties of gas, liquid, and solid. The mutual conversion between the SI unit and the F.P.S. unit is also treated to enhance the ability of engineering calculation in the industrial plants. | ||||||
2 | 1 | COE3051 | Engineering Mathematics 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
This course deals with modeling of engineering phenomena, and studies fundamental mathematical methods to analyze and understand the mathematical models. Specifically, solution methods for the first-order and second-order differential equations are treated. Also solution methods for systems that consists of several coupled differential equations are introduced. Lastly, Laplace transform is studied as an alternative method to solve for the differential equations. The students are taught to apply these concepts to real applications. | ||||||
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 | DEE2051 | English for Academic Purpose 1:Integrated Skills | Compulsory General Studies | 2-2-0 | |
2 | 1 | ICH2001 | Industrial Organic Chemistry 1 | Compulsory Major | 3-3-0 | |
Organic chemistry is one of the most important courses in chemical engineering. In general, materials can be divided into two classes; that is organic and inorganic materials. The organic materials covers wide ranges from synthetic polymers, petroleum chemicals as well as most medicines, DNAs, proteins, lipids and carbohydrates. It is essencial to have knowledges on the properties and reactions of organic compounds in order to understand and apply these organic-based materials. Organic chemistry provides these informations and Organic Chemistry 1 deals the origin of organic chemistry, structures and properties of organic compounds as well as stereochmistry and basic organic reactions such as substitution and addition reactions. | ||||||
2 | 1 | MAE2001 | Materials Science 1 | Compulsory Major | 3-3-0 | |
Physical properties of engineering materials: electron theory in solids, electronic conduction, charcteristics of junctions, magnetics, optical properties and dielectrics. | ||||||
2 | 1 | MMS2003 | Introduction to Solid State Physics | Core Major | 3-3-0 | |
Thorough understanding of the materials science must require a knowledge of the solid-state physics and the basic quantum mechanics. For this reason, the necessary basic modern physics to materials science lecture aims. The content of the unit is configured to describe the structure, basic quantum mechanics, the wave properties, the nature of the crystals and the bonding characteristics of the atom. | ||||||
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 | CHE2001 | Industrial Physical Chemistry 1 | Major Foundation Courses | 3-3-0 | |
Chemical thermodynamics: fundamental principles, Gibbsial equations, equilibrium conditions. Introduction to statistical mechanics: molecular theory of matter and heat transport phenomena in gases, Boltzman distribution law, partition functions for ideal gases. Introduction to chemical kinetics: measurement of rates of reactions, relationship between rate and reaction mechanism, transition-state theory of reaction rates. Quantum chemistry: basic principles of wave mechanics, the harmonic oscillator, the rigid rotator, infrared and microwave spectroscopy. | ||||||
2 | 1 | CHE2003 | Chemical Engineering Stoichiometry | Core Major | 3-3-0 | |
CHE203 Chemical Engineering Stoichiometry In this subject, we will understand first the concept of unit that is of importance in the engineering calculation, followed by those of temperaure and pressure. Material balance for a given process is then studied together with the properties of gas, liquid, and solid. The mutual conversion between the SI unit and the F.P.S. unit is also treated to enhance the ability of engineering calculation in the industrial plants. | ||||||
2 | 1 | COE3051 | Engineering Mathematics 1 | Major Foundation Courses | 3-3-0 | |
This course deals with modeling of engineering phenomena, and studies fundamental mathematical methods to analyze and understand the mathematical models. Specifically, solution methods for the first-order and second-order differential equations are treated. Also solution methods for systems that consists of several coupled differential equations are introduced. Lastly, Laplace transform is studied as an alternative method to solve for the differential equations. The students are taught to apply these concepts to real applications. | ||||||
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 | ICH2001 | Industrial Organic Chemistry 1 | Core Major | 3-3-0 | |
Organic chemistry is one of the most important courses in chemical engineering. In general, materials can be divided into two classes; that is organic and inorganic materials. The organic materials covers wide ranges from synthetic polymers, petroleum chemicals as well as most medicines, DNAs, proteins, lipids and carbohydrates. It is essencial to have knowledges on the properties and reactions of organic compounds in order to understand and apply these organic-based materials. Organic chemistry provides these informations and Organic Chemistry 1 deals the origin of organic chemistry, structures and properties of organic compounds as well as stereochmistry and basic organic reactions such as substitution and addition reactions. | ||||||
2 | 1 | MAE2001 | Materials Science 1 | Core Major | 3-3-0 | |
Physical properties of engineering materials: electron theory in solids, electronic conduction, charcteristics of junctions, magnetics, optical properties and dielectrics. | ||||||
2 | 1 | MMS2003 | Introduction to Atomic Structure | Core Major | 3-3-0 | |
Thorough understanding of the materials science must require a knowledge of the solid-state physics and the basic quantum mechanics. For this reason, the necessary basic modern physics to materials science lecture aims. The content of the unit is configured to describe the structure, basic quantum mechanics, the wave properties, the nature of the crystals and the bonding characteristics of the atom. | ||||||
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 | CHE1018 | Basic Biology | Extended Major | 3-3-0 | |
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan. | ||||||
2 | 2 | COE3002 | Numerical Computation | Extended Major | 3-2-2 | |
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 | 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 | 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 | ICH2002 | Industrial Organic Chemistry 2 | Core Major | 3-3-0 | |
This course is the second part of Organic Chemistry and covers structural anaysis of organic compounds using nuclear magnetic resonance, infrared, ultra violet and mass spectrometers. It also deals various organic reactions such as addition and substitution reactions involving carbonyl groups as well as radiacal and aromatic substitution reactions, uncovered in the first part of organic chemistry. | ||||||
2 | 2 | MAE2002 | Materials Science 2 | Core Major | 3-3-0 | |
Physical properties of engineering materials: electron theory in solids, electronic conduction, charcteristics of junctions, magnetics, optical properties and dielectrics. | ||||||
2 | 2 | MCE2001 | Thermodynamics 1 | Compulsory Major | 3-3-0 | |
The laws of thermodynamics, statistical interpretation of entropy, phase equilibrium in a one component system, the behavior of gases, the behavior of solutuons. Application of thermodynamics to the control of the properties of materials. | ||||||
2 | 2 | MMS2007 | Global Engineering Leadership | Extended Major | 3-3-0 | |
Global engineering leadership covers both personal and relation leadership which are essential for engineers when they deal with engineering knowledge with others. This class will focus on emotional leadership which provides the motivation to groups through natural attitude toward others. The habits and personal character are found from this class which leads to effective life with better habits in life. This class requires active involvement of group discussion and project. After this calss, students will have different attitude toward their life and relationship. | ||||||
2 | 2 | MMS3016 | Metallography | Extended Major | 3-3-0 | |
The principles of microstructural development in materials in thermodynamic- and kinetic aspects are addressed based upon examples of phenomenological case studies. Especially, understanding the physical concepts of thermodynamics, diffusion and crystal interfaces in materials is focused based on the knowledge of physical chemistry and materials science. | ||||||
2 | 2 | CHE1018 | Basic Biology | Extended Major | 3-3-0 | |
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan. | ||||||
2 | 2 | COE3002 | Numerical Computation | Extended 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 | COE3052 | Engineering Mathematics 2 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
In this course, following 4 major topics are treated. 1. Fourier Series : Half Range extensions, Fourier Integral, DFT & FFT are dealt with. 2. Partial Differentia Equations : Solution by Separating Variables, D'Alembert Methods, Fourier Integral & Laplace Transforms are dealt with. 3. Vector calculus: Multi variable function and related topics such as gradient, line integral, surface integral etc. will be studied. 4. Complex Analysis : Sevral Complex fuctions and their differentiations, Complex Integrals, Taylor and Laurent Series, Conformal Mapping and Potential Theorys are dealt with. | ||||||
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 | DEE2052 | English for Academic Purpose 2:Writing | Compulsory General Studies | 2-2-0 | |
2 | 2 | ICH2002 | Industrial Organic Chemistry 2 | Core Major | 3-3-0 | |
This course is the second part of Organic Chemistry and covers structural anaysis of organic compounds using nuclear magnetic resonance, infrared, ultra violet and mass spectrometers. It also deals various organic reactions such as addition and substitution reactions involving carbonyl groups as well as radiacal and aromatic substitution reactions, uncovered in the first part of organic chemistry. | ||||||
2 | 2 | MAE2002 | Materials Science 2 | Core Major | 3-3-0 | |
Physical properties of engineering materials: electron theory in solids, electronic conduction, charcteristics of junctions, magnetics, optical properties and dielectrics. | ||||||
2 | 2 | MCE2001 | Thermodynamics 1 | Compulsory Major | 3-3-0 | |
The laws of thermodynamics, statistical interpretation of entropy, phase equilibrium in a one component system, the behavior of gases, the behavior of solutuons. Application of thermodynamics to the control of the properties of materials. | ||||||
2 | 2 | MMS2007 | Global Engineering Leadership | Extended Major | 3-3-0 | |
Global engineering leadership covers both personal and relation leadership which are essential for engineers when they deal with engineering knowledge with others. This class will focus on emotional leadership which provides the motivation to groups through natural attitude toward others. The habits and personal character are found from this class which leads to effective life with better habits in life. This class requires active involvement of group discussion and project. After this calss, students will have different attitude toward their life and relationship. | ||||||
2 | 2 | MMS3016 | Metallography | Extended Major | 3-3-0 | |
The principles of microstructural development in materials in thermodynamic- and kinetic aspects are addressed based upon examples of phenomenological case studies. Especially, understanding the physical concepts of thermodynamics, diffusion and crystal interfaces in materials is focused based on the knowledge of physical chemistry and materials science. | ||||||
2 | 2 | CHE1018 | Basic Biology | Extended Major | 3-3-0 | |
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan. | ||||||
2 | 2 | COE3002 | Numerical Computation | Extended 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 | COE3052 | Engineering Mathematics 2 | Major Foundation Courses | 3-3-0 | |
In this course, following 4 major topics are treated. 1. Fourier Series : Half Range extensions, Fourier Integral, DFT & FFT are dealt with. 2. Partial Differentia Equations : Solution by Separating Variables, D'Alembert Methods, Fourier Integral & Laplace Transforms are dealt with. 3. Vector calculus: Multi variable function and related topics such as gradient, line integral, surface integral etc. will be studied. 4. Complex Analysis : Sevral Complex fuctions and their differentiations, Complex Integrals, Taylor and Laurent Series, Conformal Mapping and Potential Theorys are dealt with. | ||||||
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 | ICH2002 | Industrial Organic Chemistry 2 | Core Major | 3-3-0 | |
This course is the second part of Organic Chemistry and covers structural anaysis of organic compounds using nuclear magnetic resonance, infrared, ultra violet and mass spectrometers. It also deals various organic reactions such as addition and substitution reactions involving carbonyl groups as well as radiacal and aromatic substitution reactions, uncovered in the first part of organic chemistry. | ||||||
2 | 2 | MAE2002 | Materials Science 2 | Core Major | 3-3-0 | |
Physical properties of engineering materials: electron theory in solids, electronic conduction, charcteristics of junctions, magnetics, optical properties and dielectrics. | ||||||
2 | 2 | MCE2001 | Thermodynamics 1 | Core Major | 3-3-0 | |
The laws of thermodynamics, statistical interpretation of entropy, phase equilibrium in a one component system, the behavior of gases, the behavior of solutuons. Application of thermodynamics to the control of the properties of materials. | ||||||
2 | 2 | MMS3011 | Electronic Properties of Materials | Core Major | 3-3-0 | |
Electronic materials have become the main component of modern technology including its mobile device and computer. Silicon based electronic devices changed our life completely and still working on new direction. In this course, electronic and optical properties will be explained in traditional and quantum mechanical concept then further study the operation principles of semiconductor devices and its fabrication method. | ||||||
3 | 1 | CHE3009 | Reaction Engineering | Core Major | 3-3-0 | |
CHE309 Reaction Engineering Kinetics of homegeneous and heterogeneous reactions; Design of Batch. CSTR. and PFR reactors; Design education for chemical reactor; multiple reaction and unsteady state operation. | ||||||
3 | 1 | CHM3007 | Polymer Chemistry | Extended Major | 3-3-0 | |
CHM307 Polymer Chemistry Understands the intrinsic properties of the polymers based on the synthesis, properties, processing and the applications. Emphasis on the synthesis of polymers. This course will be the prerequisite for the polymer properties and polymer materials courses to be offered in the next semesters. | ||||||
3 | 1 | CHM4055 | Fluid Mechanics for Material and Chemical Engineers | Core Major | 3-3-0 | |
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan. | ||||||
3 | 1 | ENE4029 | Semiconductor Devices | Extended Major | 3-3-0 | |
This course introduces a basis for understanding characteristic, operation and limitation of semiconductor devices for undergraduate students. This class will review fundamental physics of semiconductor material and link this with semiconductor device physics. This class will be taught in English but students can ask questions in Korean. | ||||||
3 | 1 | MAE4004 | Mechanical Behavior of Materials | Core Major | 3-3-0 | |
Elementary continuum mechanics, kinematics of stress and strain, Elements of the theory of plasticity, Elementary treatment of dislocation stress fields and their use in discussing theories of plastic deformation and fracture in materials. Strengthening mechanisms. Applications to Materials Testing. | ||||||
3 | 1 | MCE3001 | Thermodynamics for Materials and Chemical Engineering | Compulsory Major | 3-3-0 | |
This course will cover th phase equilibria in alloy systems, free energy composition and phase diagram of binary systems, reaction equilibria in systems containing components in condensed solutions. (Note: Students must take 'Fundamental thermodynamics ' prior to this subject.) | ||||||
3 | 1 | MCE3002 | Organic Synthesis Laboratory | Core Major | 1-0-2 | |
3 | 1 | MCE3003 | Microstructure Experiment | Core Major | 1-0-2 | |
Martensite transformation of steel, metallurgical structure, mechanical properties, precipitation hardening in Al alloys, hardness test in disperson, hardening alloys, structure of sintering materials, tensile tests, impact tests, creep tests. | ||||||
3 | 1 | MMS3011 | Electronic Properties of Materials | Core Major | 3-3-0 | |
Electronic materials have become the main component of modern technology including its mobile device and computer. Silicon based electronic devices changed our life completely and still working on new direction. In this course, electronic and optical properties will be explained in traditional and quantum mechanical concept then further study the operation principles of semiconductor devices and its fabrication method. | ||||||
3 | 1 | MMS4012 | Introduction to Electroceramics | Extended Major | 3-3-0 | |
Various types of ceramics have used widely and its fucntions have been proven. This class deals with basics of ceramics such as nature and origin of structure and its influence on properties. | ||||||
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 | CHE3009 | Reaction Engineering | Core Major | 3-3-0 | |
CHE309 Reaction Engineering Kinetics of homegeneous and heterogeneous reactions; Design of Batch. CSTR. and PFR reactors; Design education for chemical reactor; multiple reaction and unsteady state operation. | ||||||
3 | 1 | CHM3007 | Polymer Chemistry | Extended Major | 3-3-0 | |
CHM307 Polymer Chemistry Understands the intrinsic properties of the polymers based on the synthesis, properties, processing and the applications. Emphasis on the synthesis of polymers. This course will be the prerequisite for the polymer properties and polymer materials courses to be offered in the next semesters. | ||||||
3 | 1 | CHM4055 | Fluid Mechanics for Material and Chemical Engineers | Core Major | 3-3-0 | |
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan. | ||||||
3 | 1 | ENE4029 | Semiconductor Devices | Core Major | 3-3-0 | |
This course introduces a basis for understanding characteristic, operation and limitation of semiconductor devices for undergraduate students. This class will review fundamental physics of semiconductor material and link this with semiconductor device physics. This class will be taught in English but students can ask questions in Korean. | ||||||
3 | 1 | IME2003 | Inorganic Materials Chemistry | Extended Major | 3-3-0 | |
3 | 1 | MAE4004 | Mechanical Behavior of Materials | Core Major | 3-3-0 | |
Elementary continuum mechanics, kinematics of stress and strain, Elements of the theory of plasticity, Elementary treatment of dislocation stress fields and their use in discussing theories of plastic deformation and fracture in materials. Strengthening mechanisms. Applications to Materials Testing. | ||||||
3 | 1 | MCE3001 | Thermodynamics for Materials and Chemical Engineering | Compulsory Major | 3-3-0 | |
This course will cover th phase equilibria in alloy systems, free energy composition and phase diagram of binary systems, reaction equilibria in systems containing components in condensed solutions. (Note: Students must take 'Fundamental thermodynamics ' prior to this subject.) | ||||||
3 | 1 | MCE3002 | Organic Synthesis Laboratory | Core Major | 1-0-2 | |
3 | 1 | MCE3003 | Microstructure Experiment | Core Major | 1-0-2 | |
Martensite transformation of steel, metallurgical structure, mechanical properties, precipitation hardening in Al alloys, hardness test in disperson, hardening alloys, structure of sintering materials, tensile tests, impact tests, creep tests. | ||||||
3 | 1 | MCE3011 | Materials Science and Chemical Engineering Lab Practice1 | Extended Major | 1-0-1 | |
3 | 1 | MMS3011 | Electronic Properties of Materials | Core Major | 3-3-0 | |
Electronic materials have become the main component of modern technology including its mobile device and computer. Silicon based electronic devices changed our life completely and still working on new direction. In this course, electronic and optical properties will be explained in traditional and quantum mechanical concept then further study the operation principles of semiconductor devices and its fabrication method. | ||||||
3 | 1 | MMS4012 | Introduction to Electroceramics | Extended Major | 3-3-0 | |
Various types of ceramics have used widely and its fucntions have been proven. This class deals with basics of ceramics such as nature and origin of structure and its influence on properties. | ||||||
3 | 1 | CHE3009 | Reaction Engineering | Core Major | 3-3-0 | |
CHE309 Reaction Engineering Kinetics of homegeneous and heterogeneous reactions; Design of Batch. CSTR. and PFR reactors; Design education for chemical reactor; multiple reaction and unsteady state operation. | ||||||
3 | 1 | CHM3007 | Polymer Chemistry | Extended Major | 3-3-0 | |
CHM307 Polymer Chemistry Understands the intrinsic properties of the polymers based on the synthesis, properties, processing and the applications. Emphasis on the synthesis of polymers. This course will be the prerequisite for the polymer properties and polymer materials courses to be offered in the next semesters. | ||||||
3 | 1 | CHM4055 | Fluid Mechanics for Material and Chemical Engineers | Core Major | 3-3-0 | |
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan. | ||||||
3 | 1 | ENE4029 | Semiconductor Devices | Extended Major | 3-3-0 | |
This course introduces a basis for understanding characteristic, operation and limitation of semiconductor devices for undergraduate students. This class will review fundamental physics of semiconductor material and link this with semiconductor device physics. This class will be taught in English but students can ask questions in Korean. | ||||||
3 | 1 | IME2003 | Inorganic Materials Chemistry | Extended Major | 3-3-0 | |
3 | 1 | MAE4004 | Mechanical Behavior of Materials | Core Major | 3-3-0 | |
Elementary continuum mechanics, kinematics of stress and strain, Elements of the theory of plasticity, Elementary treatment of dislocation stress fields and their use in discussing theories of plastic deformation and fracture in materials. Strengthening mechanisms. Applications to Materials Testing. | ||||||
3 | 1 | MCE3001 | Thermodynamics for Materials and Chemical Engineering | Core Major | 3-3-0 | |
This course will cover th phase equilibria in alloy systems, free energy composition and phase diagram of binary systems, reaction equilibria in systems containing components in condensed solutions. (Note: Students must take 'Fundamental thermodynamics ' prior to this subject.) | ||||||
3 | 1 | MCE3002 | Organic Synthesis Laboratory | Core Major | 1-0-2 | |
3 | 1 | MCE3003 | Microstructure Experiment | Core Major | 1-0-2 | |
Martensite transformation of steel, metallurgical structure, mechanical properties, precipitation hardening in Al alloys, hardness test in disperson, hardening alloys, structure of sintering materials, tensile tests, impact tests, creep tests. | ||||||
3 | 1 | MCE3011 | Materials Science and Chemical Engineering Lab Practice1 | Extended Major | 1-0-1 | |
3 | 1 | MMS2007 | Global Engineering Leadership | Extended Major | 3-3-0 | |
Global engineering leadership covers both personal and relation leadership which are essential for engineers when they deal with engineering knowledge with others. This class will focus on emotional leadership which provides the motivation to groups through natural attitude toward others. The habits and personal character are found from this class which leads to effective life with better habits in life. This class requires active involvement of group discussion and project. After this calss, students will have different attitude toward their life and relationship. | ||||||
3 | 1 | MMS4012 | Introduction to Electroceramics | Extended Major | 3-3-0 | |
Various types of ceramics have used widely and its fucntions have been proven. This class deals with basics of ceramics such as nature and origin of structure and its influence on properties. | ||||||
3 | 2 | CHE1008 | HEAT AND MASS TRANSFER | Core Major | 3-3-0 | |
CHE 108 Heat and Mass Transfer Understanding and analysis of the fundamental concepts of heat and mass transfer are treated first. The three mechanisms of heat flow, namely conduction, convection and radiation are discussed. Appropriate engineering equations are derived and analyzed. Also the application of the basic equations to design and analyze the heat transfer equipment and processes are discussed. Calculations for various heat flow coupled with internal fuid flow, thermal insulation, condensation of vapor mixture, evaporation, heat exchanger design, etc are covered. The development of basic equations of molecular and convective mass transfer, steady-state molecular diffusion, two- and three-dimensional sysyem, analysis of the concentration boundary layer concept, simultaneous momentum-heat-mass transfer, etc are covered. | ||||||
3 | 2 | CHM3041 | Molecular Spectroscopy | Extended Major | 3-3-0 | |
CHM341 Molecular Spectroscopy Principles of molecular spectroscopy necessary for identification in synthesis and separation of compounds; group theory, IR and Raman spectroscopy, VIS-UV spectroscopy, laser, and magnetic resonance. | ||||||
3 | 2 | CHM3061 | Applied Reaction Engineering | Extended Major | 3-3-0 | |
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan. | ||||||
3 | 2 | ICH3012 | Cell Chemistry | Extended Major | 3-3-0 | |
This course aims to present the fundamentals, principles and application techniques of electrochemistry. The application of electrochemistry has been expanded not only in conventional electroplating and corrosion but also in energy storage such as batteries and fuel cell.The electrochemical nano sensors also will be discussed for gas, chemical detection and semiconductor electrochemistry. | ||||||
3 | 2 | MCE3004 | MATERIALS AND CHEMICAL ENGINEERING CAPSTONE DESIGN 1 | Extended Major | 3-0-4 | |
Instructional objectives and guidance material chemical engineering student planning one's work, based on the theories learned in undergraduate courses upon graduation in order to cultivate the ability to solve problems encountered in the actual industry, design, experience the entire process of production Im a comprehensive training program designed to help. Achievements made in the thesis is evaluated and posters, writing manuals, prototypes, etc., and each one is selected for the supervisor, team, create proposals, progress reports, interim reports and a final report written. Goals, synthesis, analysis, production, test, and establish the concept of the elements of the evaluation. Subjected to evaluation of the progress of sexual impart | ||||||
3 | 2 | MCE3005 | Spectroscopic Analysis Laboratory | Core Major | 1-0-2 | |
3 | 2 | MCE3008 | Reaction Kinetics in Materials Engineering | Extended Major | 3-3-0 | |
3 | 2 | MCE3010 | Electronic materials laboratory | Core Major | 1-0-2 | |
3 | 2 | MMS3004 | Ferrous Metallic Materials | Core Major | 3-3-0 | |
The curriculum Steel Material carbon steel, alloy steel (stainless steel), cast iron, etc. Characteristics of various structural steel materials, state road, river, etc., and the manufacturing process domoham a broad understanding of steel materials based on it. Phase Equilibria for various ferrous alloys understanding and knowledge as steel majors should inspire engineers by matching a deepening knowledge of the Structure-Property-Processing. | ||||||
3 | 2 | MMS3014 | Crystallography and Diffraction | Extended Major | 3-3-0 | |
Symmetry of crystals, crystal lattice, properties of X-rays, reciprecal-lattice concepts, diffraction theory, determination of structure. | ||||||
3 | 2 | CHE1008 | HEAT AND MASS TRANSFER | Core Major | 3-3-0 | |
CHE 108 Heat and Mass Transfer Understanding and analysis of the fundamental concepts of heat and mass transfer are treated first. The three mechanisms of heat flow, namely conduction, convection and radiation are discussed. Appropriate engineering equations are derived and analyzed. Also the application of the basic equations to design and analyze the heat transfer equipment and processes are discussed. Calculations for various heat flow coupled with internal fuid flow, thermal insulation, condensation of vapor mixture, evaporation, heat exchanger design, etc are covered. The development of basic equations of molecular and convective mass transfer, steady-state molecular diffusion, two- and three-dimensional sysyem, analysis of the concentration boundary layer concept, simultaneous momentum-heat-mass transfer, etc are covered. | ||||||
3 | 2 | CHM3041 | Molecular Spectroscopy | Extended Major | 3-3-0 | |
CHM341 Molecular Spectroscopy Principles of molecular spectroscopy necessary for identification in synthesis and separation of compounds; group theory, IR and Raman spectroscopy, VIS-UV spectroscopy, laser, and magnetic resonance. | ||||||
3 | 2 | CHM3061 | Applied Reaction Engineering | Extended Major | 3-3-0 | |
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan. | ||||||
3 | 2 | ENE4071 | Semiconductor Processing | Extended Major | 3-3-0 | |
ntroduces the theory and technology of semiconductor integrated-circuit fabrication. Lectures are focused on basic processing techniques such as diffusion, oxidation, annealing, epitaxy, physical/chemical vapor depositions, and plasma etching. Emphases are placed on the interrelationships between material properties, device processing, and the electrical behavior of devices. Students evaluation will be proceeded by 3-different approaches. Every students should report as powerpoint format with respect to the each Quiz (almost 3 times a semester). 3 or 4 students are required to group to proceed their own team project. At final period, each team is required to present their achievments. Final exam will be performed at final without mid-term exam. | ||||||
3 | 2 | ICH3012 | Cell Chemistry | Extended Major | 3-3-0 | |
This course aims to present the fundamentals, principles and application techniques of electrochemistry. The application of electrochemistry has been expanded not only in conventional electroplating and corrosion but also in energy storage such as batteries and fuel cell.The electrochemical nano sensors also will be discussed for gas, chemical detection and semiconductor electrochemistry. | ||||||
3 | 2 | MCE3004 | MATERIALS AND CHEMICAL ENGINEERING CAPSTONE DESIGN 1 | Extended Major | 3-0-4 | |
Instructional objectives and guidance material chemical engineering student planning one's work, based on the theories learned in undergraduate courses upon graduation in order to cultivate the ability to solve problems encountered in the actual industry, design, experience the entire process of production Im a comprehensive training program designed to help. Achievements made in the thesis is evaluated and posters, writing manuals, prototypes, etc., and each one is selected for the supervisor, team, create proposals, progress reports, interim reports and a final report written. Goals, synthesis, analysis, production, test, and establish the concept of the elements of the evaluation. Subjected to evaluation of the progress of sexual impart | ||||||
3 | 2 | MCE3005 | Spectroscopic Analysis Laboratory | Core Major | 1-0-2 | |
3 | 2 | MCE3008 | Reaction Kinetics in Materials Engineering | Extended Major | 3-3-0 | |
The reaction rate between two phases can be controlled by either the mass transfer near the reaction interface or the chemical reaction at the interface. The rate determining step will determine the overall reaction rate depending on reaction conditions. This course deals with the characteristics of fluid and the principles of mass transfer in gas and liquid phases to understand the reaction mechanism, the rate of determining steps and the rate equations. The case study will be provided for practical applications. | ||||||
3 | 2 | MCE3010 | Electronic materials laboratory | Core Major | 1-0-2 | |
In the course material on the thermodynamic properties and its application to represent the basic and macroscopic characteristics. Is the specific electric resistance experiments experiments, work hardening and recrystallization experiments, aging experiments, experimental reduction in the material The carburization tests, such as a tensile test of the material. This course is aimed to clarify understanding of the structure of a material by carrying out the production principle of analysis and understanding of the process and of the metal material and an electronic material. In doing so, the microstructure and material properties analysis experiment to experiment in the continuum position, and the practice and application of systematic test of metal materials and electronic materials based on what you've learned in the theory class aims. | ||||||
3 | 2 | MCE3012 | Materials Science and Chemical Engineering Lab Practice2 | Extended Major | 1-0-1 | |
3 | 2 | MMS3004 | Ferrous Metallic Materials | Core Major | 3-3-0 | |
The curriculum Steel Material carbon steel, alloy steel (stainless steel), cast iron, etc. Characteristics of various structural steel materials, state road, river, etc., and the manufacturing process domoham a broad understanding of steel materials based on it. Phase Equilibria for various ferrous alloys understanding and knowledge as steel majors should inspire engineers by matching a deepening knowledge of the Structure-Property-Processing. | ||||||
3 | 2 | MMS3014 | Crystallography and Diffraction | Extended Major | 3-3-0 | |
Symmetry of crystals, crystal lattice, properties of X-rays, reciprecal-lattice concepts, diffraction theory, determination of structure. | ||||||
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 | CHE1008 | HEAT AND MASS TRANSFER | Core Major | 3-3-0 | |
CHE 108 Heat and Mass Transfer Understanding and analysis of the fundamental concepts of heat and mass transfer are treated first. The three mechanisms of heat flow, namely conduction, convection and radiation are discussed. Appropriate engineering equations are derived and analyzed. Also the application of the basic equations to design and analyze the heat transfer equipment and processes are discussed. Calculations for various heat flow coupled with internal fuid flow, thermal insulation, condensation of vapor mixture, evaporation, heat exchanger design, etc are covered. The development of basic equations of molecular and convective mass transfer, steady-state molecular diffusion, two- and three-dimensional sysyem, analysis of the concentration boundary layer concept, simultaneous momentum-heat-mass transfer, etc are covered. | ||||||
3 | 2 | CHM3041 | Molecular Spectroscopy | Extended Major | 3-3-0 | |
CHM341 Molecular Spectroscopy Principles of molecular spectroscopy necessary for identification in synthesis and separation of compounds; group theory, IR and Raman spectroscopy, VIS-UV spectroscopy, laser, and magnetic resonance. | ||||||
3 | 2 | ENE4071 | Semiconductor Processing | Extended Major | 3-3-0 | |
ntroduces the theory and technology of semiconductor integrated-circuit fabrication. Lectures are focused on basic processing techniques such as diffusion, oxidation, annealing, epitaxy, physical/chemical vapor depositions, and plasma etching. Emphases are placed on the interrelationships between material properties, device processing, and the electrical behavior of devices. Students evaluation will be proceeded by 3-different approaches. Every students should report as powerpoint format with respect to the each Quiz (almost 3 times a semester). 3 or 4 students are required to group to proceed their own team project. At final period, each team is required to present their achievments. Final exam will be performed at final without mid-term exam. | ||||||
3 | 2 | ICH3012 | Cell Chemistry | Core Major | 3-3-0 | |
This course aims to present the fundamentals, principles and application techniques of electrochemistry. The application of electrochemistry has been expanded not only in conventional electroplating and corrosion but also in energy storage such as batteries and fuel cell.The electrochemical nano sensors also will be discussed for gas, chemical detection and semiconductor electrochemistry. | ||||||
3 | 2 | MCE3004 | MATERIALS AND CHEMICAL ENGINEERING CAPSTONE DESIGN 1 | Extended Major | 3-0-4 | |
Instructional objectives and guidance material chemical engineering student planning one's work, based on the theories learned in undergraduate courses upon graduation in order to cultivate the ability to solve problems encountered in the actual industry, design, experience the entire process of production Im a comprehensive training program designed to help. Achievements made in the thesis is evaluated and posters, writing manuals, prototypes, etc., and each one is selected for the supervisor, team, create proposals, progress reports, interim reports and a final report written. Goals, synthesis, analysis, production, test, and establish the concept of the elements of the evaluation. Subjected to evaluation of the progress of sexual impart | ||||||
3 | 2 | MCE3005 | Spectroscopic Analysis Laboratory | Core Major | 1-0-2 | |
3 | 2 | MCE3008 | High Temperature Reaction Kinetics | Extended Major | 3-3-0 | |
The reaction rate between two phases can be controlled by either the mass transfer near the reaction interface or the chemical reaction at the interface. The rate determining step will determine the overall reaction rate depending on reaction conditions. This course deals with the characteristics of fluid and the principles of mass transfer in gas and liquid phases to understand the reaction mechanism, the rate of determining steps and the rate equations. The case study will be provided for practical applications. | ||||||
3 | 2 | MCE3010 | Electronic materials laboratory | Core Major | 1-0-2 | |
In the course material on the thermodynamic properties and its application to represent the basic and macroscopic characteristics. Is the specific electric resistance experiments experiments, work hardening and recrystallization experiments, aging experiments, experimental reduction in the material The carburization tests, such as a tensile test of the material. This course is aimed to clarify understanding of the structure of a material by carrying out the production principle of analysis and understanding of the process and of the metal material and an electronic material. In doing so, the microstructure and material properties analysis experiment to experiment in the continuum position, and the practice and application of systematic test of metal materials and electronic materials based on what you've learned in the theory class aims. | ||||||
3 | 2 | MCE3012 | Materials Science and Chemical Engineering Lab Practice2 | Extended Major | 1-0-1 | |
3 | 2 | MMS3014 | X-ray Diffraction and Crystallography | Extended Major | 3-3-0 | |
Symmetry of crystals, crystal lattice, properties of X-rays, reciprecal-lattice concepts, diffraction theory, determination of structure. | ||||||
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 | CHE1010 | Introduction to Nano-Convergence Materials | Extended Major | 3-3-0 | |
This course is designed to provide students with an overview of current topics in Nanoscience and Engineering. Students will be provided with a survey of key concepts in the areas of solid surfaces, zero to two dimensional nanostructures, and their growth and properties. 1.Introduction to nanoscience 2.Physical Chemistry of Solid Surfaces 3.Zero-Dimensional Nanostructures:Nanoparticles 4.One-Dimensional Nanostructures:Nanorods and Nanowires 5.Two-Dimensional Nanostructures:Thin Films | ||||||
4 | 1 | CHE1015 | ENGINEERING PROPERTIES OF FUNCIIONAL POLYMERS | Extended Major | 3-3-0 | |
Polymers exhibit new functions in addition to traditional roles for mechanical applications. Typical examples are electronically and ionically conductive polymers, which can be applied for light emitting diodes, secondary batteries, solar cells, and fuel cells. Some polymers show selective transport through polymers, which can be applied for membranes to separate gas and liquid mixtures. Optical, photonic and biomedical applications of polymeric materials have also been paid much attention recently. Thus, this class will cover the structure-functional properties relationship of polymeric materials and their applications. | ||||||
4 | 1 | CHE3055 | Chemical Process Control | Extended Major | 3-3-0 | |
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. | ||||||
4 | 1 | CHE4003 | Chemical Process Design | Core Major | 3-3-0 | |
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. | ||||||
4 | 1 | MCE4001 | MATERIALS AND CHEMICAL ENGINEERING CAPSTONE DESIGN 2 | Extended Major | 3-0-4 | |
Material Chemical Engineering student planning one's work, based on the theory learned during the undergraduate degree upon graduation in order to cultivate the ability to solve problems encountered in the actual industry, design, overall design that allows you to experience the entire process of production Im education program. Graduate outcomes and poster paper, writing manuals, etc. made with the prototype evaluated. Planning to work in groups, design and creative culture through the process of creating and promoting mutual collaboration skills, hands-on training in the industry of department Students learn the process of linking the ability to cope. | ||||||
4 | 1 | MCE4005 | Transport and Process Control Lab | Core Major | 1-0-2 | |
4 | 1 | MMS1011 | Electromagnetics | Extended Major | 3-3-0 | |
This class will be taught in English but students can ask questions in Korean. This course covers the introduction to electromagnetics for undergraduate students. | ||||||
4 | 1 | MMS2005 | Materials Electrochemistry | Extended Major | 3-3-0 | |
Materials in Chemical Engineering is a trend that is increasingly expanded its territory, depending on the level of sophistication of the technology industry and increased demand. Especially electrochemistry that has a long academic tradition has emerged as an important discipline for those materials and chemical engineering industry as technology advances. This course is based on the electrochemical Ionic Interaction / equilibria, Electrolytic conduction, covers and reversible / irreversibe reaction and the Butler-Volmer eq, Tafel eq. Such knowledge of the material corrosion a background / method and source of Degradation and applied, the application of the electroplating, discussed further for the semiconductor, and the location of the electrochemical its importance in the electronics industry and coverage. Also deals with the application and its importance in electrochemistry and related knowledge of the energy sector, including the most important areas of modern battery technology. | ||||||
4 | 1 | MMS3017 | Phase Transformation in Materials | Extended Major | 3-3-0 | |
The fundamental concepts and principles of phase transformations in materials are addressed in terms of thermodynamics and equilibrium phase diagram, diffusion and crystal interfaces & microstructure of materials. The phase transformations include solidification, diffusional transformation and diffusionless transformation. | ||||||
4 | 1 | MMS4017 | IRON & STEELMAKING PROCESSES | Core Major | 3-3-0 | |
The objective of this course is to understand basic principles of iron and steelmaking process by practicing various case studies in blast furnace, hot metal treatment, oxygen steelmaking and secondary steelmaking processes. Basic thermodynamics and kinetics of reactions relevant to those processes will be reviewed via case studies. | ||||||
4 | 1 | CHE1010 | Introduction to Nano-Convergence Materials | Extended Major | 3-3-0 | |
This course is designed to provide students with an overview of current topics in Nanoscience and Engineering. Students will be provided with a survey of key concepts in the areas of solid surfaces, zero to two dimensional nanostructures, and their growth and properties. 1.Introduction to nanoscience 2.Physical Chemistry of Solid Surfaces 3.Zero-Dimensional Nanostructures:Nanoparticles 4.One-Dimensional Nanostructures:Nanorods and Nanowires 5.Two-Dimensional Nanostructures:Thin Films | ||||||
4 | 1 | CHE1015 | ENGINEERING PROPERTIES OF FUNCIIONAL POLYMERS | Extended Major | 3-3-0 | |
Polymers exhibit new functions in addition to traditional roles for mechanical applications. Typical examples are electronically and ionically conductive polymers, which can be applied for light emitting diodes, secondary batteries, solar cells, and fuel cells. Some polymers show selective transport through polymers, which can be applied for membranes to separate gas and liquid mixtures. Optical, photonic and biomedical applications of polymeric materials have also been paid much attention recently. Thus, this class will cover the structure-functional properties relationship of polymeric materials and their applications. | ||||||
4 | 1 | CHE3055 | Chemical Process Control | Extended Major | 3-3-0 | |
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. | ||||||
4 | 1 | CHE4003 | Chemical Process Design | Core Major | 3-3-0 | |
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. | ||||||
4 | 1 | MCE4001 | MATERIALS AND CHEMICAL ENGINEERING CAPSTONE DESIGN 2 | Extended Major | 3-0-4 | |
Material Chemical Engineering student planning one's work, based on the theory learned during the undergraduate degree upon graduation in order to cultivate the ability to solve problems encountered in the actual industry, design, overall design that allows you to experience the entire process of production Im education program. Graduate outcomes and poster paper, writing manuals, etc. made with the prototype evaluated. Planning to work in groups, design and creative culture through the process of creating and promoting mutual collaboration skills, hands-on training in the industry of department Students learn the process of linking the ability to cope. | ||||||
4 | 1 | MCE4005 | Transport and Process Control Lab | Core Major | 1-0-2 | |
his course aims to present the experiments for the synthesis of nano-particle and nano-wire from electrochemistry tech. and to understand the nano processing conditions including processing temperature, concentration, input voltage & current for well-designed nanostructured materials.. Also, from these experiments, fundamentals, principles and application techniques of nanomaterials and devices. Furthermore, From experiments of heat transfer, mass transfer and control theory, understanding the theory and training the handling of the chemical engineering instruments such as thermal conductivity, thermal radiation, Reynolds number effects, friction loss in pipe, pneumatic control, liquid level control, temperature control, PLC control, transducer trainer, process control simulator, Dynamic behavior of continuous Reactor, On-Off control of Automatic and manual control. | ||||||
4 | 1 | MCE4006 | Materials Science and Chemical Engineering Lab Practice3 | Extended Major | 1-0-1 | |
4 | 1 | MCE4009 | Introduction to atomic-level thin film process | Extended Major | 3-3-0 | |
4 | 1 | MMS1011 | Electromagnetics | Extended Major | 3-3-0 | |
This class will be taught in English but students can ask questions in Korean. This course covers the introduction to electromagnetics for undergraduate students. | ||||||
4 | 1 | MMS2005 | Materials Electrochemistry | Extended Major | 3-3-0 | |
Materials in Chemical Engineering is a trend that is increasingly expanded its territory, depending on the level of sophistication of the technology industry and increased demand. Especially electrochemistry that has a long academic tradition has emerged as an important discipline for those materials and chemical engineering industry as technology advances. This course is based on the electrochemical Ionic Interaction / equilibria, Electrolytic conduction, covers and reversible / irreversibe reaction and the Butler-Volmer eq, Tafel eq. Such knowledge of the material corrosion a background / method and source of Degradation and applied, the application of the electroplating, discussed further for the semiconductor, and the location of the electrochemical its importance in the electronics industry and coverage. Also deals with the application and its importance in electrochemistry and related knowledge of the energy sector, including the most important areas of modern battery technology. | ||||||
4 | 1 | MMS3017 | Phase Transformation in Materials | Extended Major | 3-3-0 | |
The fundamental concepts and principles of phase transformations in materials are addressed in terms of thermodynamics and equilibrium phase diagram, diffusion and crystal interfaces & microstructure of materials. The phase transformations include solidification, diffusional transformation and diffusionless transformation. | ||||||
4 | 1 | MMS4017 | IRON & STEELMAKING PROCESSES | Core Major | 3-3-0 | |
The objective of this course is to understand basic principles of iron and steelmaking process by practicing various case studies in blast furnace, hot metal treatment, oxygen steelmaking and secondary steelmaking processes. Basic thermodynamics and kinetics of reactions relevant to those processes will be reviewed via case studies. | ||||||
4 | 1 | CHE1010 | Nanomaterials Engineering | Extended Major | 3-3-0 | |
This course is designed to provide students with an overview of current topics in Nanoscience and Engineering. Students will be provided with a survey of key concepts in the areas of solid surfaces, zero to two dimensional nanostructures, and their growth and properties. 1.Introduction to nanoscience 2.Physical Chemistry of Solid Surfaces 3.Zero-Dimensional Nanostructures:Nanoparticles 4.One-Dimensional Nanostructures:Nanorods and Nanowires 5.Two-Dimensional Nanostructures:Thin Films | ||||||
4 | 1 | CHE3055 | Advanced Process Control Systems | Extended Major | 3-3-0 | |
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. | ||||||
4 | 1 | CHE4003 | Chemical Process Design | Core Major | 3-3-0 | |
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. | ||||||
4 | 1 | MCE4001 | MATERIALS AND CHEMICAL ENGINEERING CAPSTONE DESIGN 2 | Extended Major | 3-0-4 | |
Material Chemical Engineering student planning one's work, based on the theory learned during the undergraduate degree upon graduation in order to cultivate the ability to solve problems encountered in the actual industry, design, overall design that allows you to experience the entire process of production Im education program. Graduate outcomes and poster paper, writing manuals, etc. made with the prototype evaluated. Planning to work in groups, design and creative culture through the process of creating and promoting mutual collaboration skills, hands-on training in the industry of department Students learn the process of linking the ability to cope. | ||||||
4 | 1 | MCE4005 | Transport and Process Control Lab | Core Major | 1-0-2 | |
his course aims to present the experiments for the synthesis of nano-particle and nano-wire from electrochemistry tech. and to understand the nano processing conditions including processing temperature, concentration, input voltage & current for well-designed nanostructured materials.. Also, from these experiments, fundamentals, principles and application techniques of nanomaterials and devices. Furthermore, From experiments of heat transfer, mass transfer and control theory, understanding the theory and training the handling of the chemical engineering instruments such as thermal conductivity, thermal radiation, Reynolds number effects, friction loss in pipe, pneumatic control, liquid level control, temperature control, PLC control, transducer trainer, process control simulator, Dynamic behavior of continuous Reactor, On-Off control of Automatic and manual control. | ||||||
4 | 1 | MCE4006 | Materials Science and Chemical Engineering Lab Practice3 | Extended Major | 1-0-1 | |
4 | 1 | MCE4008 | Thin Film & Surface Analysis | Extended Major | 3-3-0 | |
4 | 1 | MCE4009 | Introduction to atomic-level thin film process | Extended Major | 3-3-0 | |
4 | 1 | MMS2005 | Introduction to Electrochemistry | Extended Major | 3-3-0 | |
Materials in Chemical Engineering is a trend that is increasingly expanded its territory, depending on the level of sophistication of the technology industry and increased demand. Especially electrochemistry that has a long academic tradition has emerged as an important discipline for those materials and chemical engineering industry as technology advances. This course is based on the electrochemical Ionic Interaction / equilibria, Electrolytic conduction, covers and reversible / irreversibe reaction and the Butler-Volmer eq, Tafel eq. Such knowledge of the material corrosion a background / method and source of Degradation and applied, the application of the electroplating, discussed further for the semiconductor, and the location of the electrochemical its importance in the electronics industry and coverage. Also deals with the application and its importance in electrochemistry and related knowledge of the energy sector, including the most important areas of modern battery technology. | ||||||
4 | 1 | MMS3017 | Phase Transformation and Microstructure | Extended Major | 3-3-0 | |
The fundamental concepts and principles of phase transformations in materials are addressed in terms of thermodynamics and equilibrium phase diagram, diffusion and crystal interfaces & microstructure of materials. The phase transformations include solidification, diffusional transformation and diffusionless transformation. | ||||||
4 | 1 | MMS4017 | IRON & STEELMAKING PROCESSES | Core Major | 3-3-0 | |
The objective of this course is to understand basic principles of iron and steelmaking process by practicing various case studies in blast furnace, hot metal treatment, oxygen steelmaking and secondary steelmaking processes. Basic thermodynamics and kinetics of reactions relevant to those processes will be reviewed via case studies. | ||||||
4 | 2 | CHE4010 | Separation Process | Core Major | 3-3-0 | |
CHE410 Separation Process Principles of equilibrium-stage operation, design of distillation tower, leaching and extraction' introduction to multicomponent distillation' gas absorption, humidification operations, absorption and drying of solids. | ||||||
4 | 2 | CHE4021 | Biochemical Engineering | Extended Major | 3-3-0 | |
CHE421 Biochemical Engineering Interaction of chemical engineering, biochemistry, and microbiology. Mathematical representations of microbial systems. Kinetics of growth, death, and metabolism. Continuous fermentation, agitation, mass transfer, and scale-up in fermentation systems, enzyme technology. | ||||||
4 | 2 | MCE4003 | Materials Characterization Experiment | Core Major | 1-0-2 | |
Using the structure and electrical properties of the material to understand the physical properties of industrial materials and for the purpose of observing the basic experiment. The experimental details are magnetic characterization, semiconductor processes, such as hardness and impact tests. This course is aimed to understand more clearly the structure of a material by carrying out various analysis and understand the principles and the production process of a metal material and an electronic material The. Thereby position on the continuum of microstructure and experimental electronics experiments and learn the practice and application of systematic test of metal materials and electronic materials based on what you've learned in the theory classes. | ||||||
4 | 2 | MCE4004 | Colloquium for materials and chemical engineering | Extended Major | 1-0-2 | |
This course is a way for students to enroll in a self-development course for the social life in the fourth grade, and provide direction for further rewarding social life. And he aims to broaden the understanding of the majors to work smoothly in the future. The process studied maps and tips for completing the curriculum in key areas of design and to give each major party for help with job design, the theory underlying the relevant sectors, domestic and international trends, career guidance, etc. that influence the college-wide through be sure to cover the contents should be familiar as the fourth grade. | ||||||
4 | 2 | MMS1003 | MATERIALS AND PROCESSES | Extended Major | 3-3-0 | |
4 | 2 | MMS1008 | Powder Process Engineering | Extended Major | 3-3-0 | |
Fundamental principles on powder metallurgy and particulate materials and processes are addressed. A variety of techniques to fabricate engineered powder products using principles ranging from materials synthesis to industrial engineering are introduced. Powder characteristics, powder fabrication, mixing, compaction and shaping, sintering concept and practice, post treatments including full-density processes and finishing operations, materials charcterization, and applications are covered. | ||||||
4 | 2 | MMS1012 | Solid state physics | Extended Major | 3-3-0 | |
The objectives of the course is increasing your understanding and knowledge about solid state physics, which include electrical, thermal, and mechanical properties of crystalline solids, including lattice bonding, phonon dynamics, band theory, electrons in metals, semiconductors, and superconductivity. It also aims improving problem solving ability and to develop skills in working from primary and secondary literature. | ||||||
4 | 2 | MMS4016 | Materials Characterization | Extended Major | 3-3-0 | |
Materials in chemical engineering aims to develop a method for improving the characteristics by looking understand the characteristics of the material. This is a secure way to the most important to evaluate the characteristics to achieve. That is to evaluate the physical and chemical characteristics are to be determined whether or not the value of the material. It was also revealed by the crystal doeeojim crude grade formulation and physical combination of them that is the atom, molecule, such as the elements that constitute a material with arch nationality while being enlarged understanding of these characteristics to the development of materials engineering. Therefore, the chemical composition and the number of analytical methods that can be developed to determine the physical structure has been that the most common and efficient method in the analysis using an electron microscope. Therefore, the content of this course is to provide experience with the structure, analysis, empirical examples of electron microscopic structure of the class that the goal here is going to carry gyeomhayeo the theory and practical tests. | ||||||
4 | 2 | CHE4010 | Separation Process | Core Major | 3-3-0 | |
CHE410 Separation Process Principles of equilibrium-stage operation, design of distillation tower, leaching and extraction' introduction to multicomponent distillation' gas absorption, humidification operations, absorption and drying of solids. | ||||||
4 | 2 | CHE4021 | Biochemical Engineering | Extended Major | 3-3-0 | |
CHE421 Biochemical Engineering Interaction of chemical engineering, biochemistry, and microbiology. Mathematical representations of microbial systems. Kinetics of growth, death, and metabolism. Continuous fermentation, agitation, mass transfer, and scale-up in fermentation systems, enzyme technology. | ||||||
4 | 2 | MCE4003 | Materials Characterization Experiment | Core Major | 1-0-2 | |
Using the structure and electrical properties of the material to understand the physical properties of industrial materials and for the purpose of observing the basic experiment. The experimental details are magnetic characterization, semiconductor processes, such as hardness and impact tests. This course is aimed to understand more clearly the structure of a material by carrying out various analysis and understand the principles and the production process of a metal material and an electronic material The. Thereby position on the continuum of microstructure and experimental electronics experiments and learn the practice and application of systematic test of metal materials and electronic materials based on what you've learned in the theory classes. | ||||||
4 | 2 | MCE4004 | Colloquium for materials and chemical engineering | Extended Major | 1-0-2 | |
This course is a way for students to enroll in a self-development course for the social life in the fourth grade, and provide direction for further rewarding social life. And he aims to broaden the understanding of the majors to work smoothly in the future. The process studied maps and tips for completing the curriculum in key areas of design and to give each major party for help with job design, the theory underlying the relevant sectors, domestic and international trends, career guidance, etc. that influence the college-wide through be sure to cover the contents should be familiar as the fourth grade. | ||||||
4 | 2 | MCE4007 | Materials Science and Chemical Engineering Lab Practice4 | Extended Major | 1-0-1 | |
4 | 2 | MMS1003 | MATERIALS AND PROCESSES | Extended Major | 3-3-0 | |
Thin film technology and other advanced materials processing have gone through a thorough development which results in various new devices such as Light Emitting Diodes (LED), semiconductor logic devices, and other electric devices. Especially, thin film research shares the knowledge from multi-disciplines including materials science, chemistry, solid state physics, and mechanics. This course is designed for undergraduate students who are interested in materials processing for thin film and lower dimensional material for various industrial applications. Topics covers from fundamentals on materials properties in thin films, the basic nucleation and growth mechanisms of thin films, growth models, epitaxial growth, and thin film processing techniques including CVD, MOCVD, MBE, ALD, sputtering, and electrochemical deposition. | ||||||
4 | 2 | MMS1008 | Powder Process Engineering | Extended Major | 3-3-0 | |
Fundamental principles on powder metallurgy and particulate materials and processes are addressed. A variety of techniques to fabricate engineered powder products using principles ranging from materials synthesis to industrial engineering are introduced. Powder characteristics, powder fabrication, mixing, compaction and shaping, sintering concept and practice, post treatments including full-density processes and finishing operations, materials charcterization, and applications are covered. | ||||||
4 | 2 | MMS1012 | Solid state physics | Extended Major | 3-3-0 | |
The objectives of the course is increasing your understanding and knowledge about solid state physics, which include electrical, thermal, and mechanical properties of crystalline solids, including lattice bonding, phonon dynamics, band theory, electrons in metals, semiconductors, and superconductivity. It also aims improving problem solving ability and to develop skills in working from primary and secondary literature. | ||||||
4 | 2 | MMS4016 | Materials Characterization | Extended Major | 3-3-0 | |
Materials in chemical engineering aims to develop a method for improving the characteristics by looking understand the characteristics of the material. This is a secure way to the most important to evaluate the characteristics to achieve. That is to evaluate the physical and chemical characteristics are to be determined whether or not the value of the material. It was also revealed by the crystal doeeojim crude grade formulation and physical combination of them that is the atom, molecule, such as the elements that constitute a material with arch nationality while being enlarged understanding of these characteristics to the development of materials engineering. Therefore, the chemical composition and the number of analytical methods that can be developed to determine the physical structure has been that the most common and efficient method in the analysis using an electron microscope. Therefore, the content of this course is to provide experience with the structure, analysis, empirical examples of electron microscopic structure of the class that the goal here is going to carry gyeomhayeo the theory and practical tests. | ||||||
4 | 2 | CHE4010 | Separation Process | Core Major | 3-3-0 | |
CHE410 Separation Process Principles of equilibrium-stage operation, design of distillation tower, leaching and extraction' introduction to multicomponent distillation' gas absorption, humidification operations, absorption and drying of solids. | ||||||
4 | 2 | MCE4004 | Colloquium for materials and chemical engineering | Extended Major | 1-0-2 | |
This course is a way for students to enroll in a self-development course for the social life in the fourth grade, and provide direction for further rewarding social life. And he aims to broaden the understanding of the majors to work smoothly in the future. The process studied maps and tips for completing the curriculum in key areas of design and to give each major party for help with job design, the theory underlying the relevant sectors, domestic and international trends, career guidance, etc. that influence the college-wide through be sure to cover the contents should be familiar as the fourth grade. | ||||||
4 | 2 | MCE4007 | Materials Science and Chemical Engineering Lab Practice4 | Extended Major | 1-0-1 | |
4 | 2 | MMS1003 | Advanced Thin Film Technologies | Extended Major | 3-3-0 | |
Thin film technology and other advanced materials processing have gone through a thorough development which results in various new devices such as Light Emitting Diodes (LED), semiconductor logic devices, and other electric devices. Especially, thin film research shares the knowledge from multi-disciplines including materials science, chemistry, solid state physics, and mechanics. This course is designed for undergraduate students who are interested in materials processing for thin film and lower dimensional material for various industrial applications. Topics covers from fundamentals on materials properties in thin films, the basic nucleation and growth mechanisms of thin films, growth models, epitaxial growth, and thin film processing techniques including CVD, MOCVD, MBE, ALD, sputtering, and electrochemical deposition. | ||||||
4 | 2 | MMS1008 | Powder Process Engineering | Extended Major | 3-3-0 | |
Fundamental principles on powder metallurgy and particulate materials and processes are addressed. A variety of techniques to fabricate engineered powder products using principles ranging from materials synthesis to industrial engineering are introduced. Powder characteristics, powder fabrication, mixing, compaction and shaping, sintering concept and practice, post treatments including full-density processes and finishing operations, materials charcterization, and applications are covered. |