For more details on the courses, please refer to the Course Catalog
Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
---|---|---|---|---|---|---|---|---|---|
ICE2016 | Elements of Engineering Mathematics 1 | 3 | 6 | Major | Bachelor | 2 | Information and Communication Engineering | Korean,English,Korean | Yes |
In this course,we will learn elements of mathematical methods for analysis of electrical and electric systems in college of information and communication engineering. This course will cover the followingtopics:the 1st, 2nd,and higher order differential equations, Laplace transforms and Fouier series and transformations. | |||||||||
ICE2017 | Elements of Engineering Mathematics 2 | 3 | 6 | Major | Bachelor | 2 | Information and Communication Engineering | Korean,English,Korean | Yes |
The purpose of this course is to provide learners with the concepts and methods required to further extent the subject of Elements of Engineering Mathematics 1. This course will cover the followingtopics: linear algebra (Matrix, vector space, determinant, Eignvalue problems and etc.), partial differential equations and complex analysis (complex numbers,function, complex integrations, series and etc). | |||||||||
MCC2001 | Introduction to Industrial Organic Chemistry | 3 | 6 | Major | Bachelor | Korean | Yes | ||
This course provides fundamentals of organic chemistry;Chemical structure and bonding of organic compounds, nomenclature, basic properties, different type of reactions, and concept of reaction mechanism and kinetics/ Nature and reactions of aliphatic hydrocarbons(alkane, alkene, and alkyne), isomerism, stereochemistry, substitution and elimination of alkyl halides. | |||||||||
MCC2002 | Introduction to Electrodynamics | 3 | 6 | Major | Bachelor | Korean | Yes | ||
The purpose of this subject is generalgraspofelectrostatics,magnetostatics, and time-varying electromagnetic wave. Concepts of electricfield, electric flux density,electricpotentials, Gauss'slaw(Divergencetheorem) are introduced. Materials’properties of conductor and insulator are explained and they are applied to resistor and capacitor.Bio-Savartlaw, Ampere's law (Stoke'stheorem) in magnetostatics are introduced and inductors are undestood. Furthermore, Maxwell’equations are treated using Faraday Law (displacement current)in time-varying magnetics (electrics) annd characteristics of electromagtic wave are applied to communication and display devices. | |||||||||
MCC2003 | Introduction to CalculationinChemicalEngineering | 3 | 6 | Major | Bachelor | Korean | Yes | ||
This class provides basic calculation methods for material and energy balances in chemical processes including unit conversion and the equations for material and energy balance. These calculation methods will provide basic information on process operation, design and control of chemical processes. | |||||||||
MCC2004 | Introduction to Mechanical Engineering | 3 | 6 | Major | Bachelor | Korean | Yes | ||
The objective of this course is to provide the principles of the mathematics and physics in mechanical engineering. The topics cover problem-solving skills, design, engineering analysis, and practical technology. In particular, forces in structures and fluid, materials and stress, thermal and energy systems, motion of machinery, and mechanical design will be covered in the cource. | |||||||||
MCC2005 | Introduction of Materials Engineering 1 | 3 | 6 | Major | Bachelor | Korean | Yes | ||
Thiscourseprovidesfundamentalapproachfor the principles and the basic properties of materials. Specifically, phase diagrams and phase transformations of materials, and electrical properties, thermal properties, magnetic properties, and optical properties of materials will be introduced. | |||||||||
MCC2006 | IntroductionofMaterialsEngineering2 | 3 | 6 | Major | Bachelor | Korean | Yes | ||
This course provides fundamental approach for the principles and the basic properties of materials. Specifically, phase diagrams and phase transformations of materials, and electrical properties, thermal properties, magnetic properties, and optical properties of materials will be introduced. | |||||||||
MCC2007 | Introduction to Materials and Solid Mechanics | 3 | 6 | Major | Bachelor | Korean | Yes | ||
This course covers the atomic structures and arrangements of solids, and their effects on the mechanical properties. The concepts of stress, strain, and displacement will be covered and the students will deal with the behavior of solid bodies subjected to various types of loading conditions. | |||||||||
MCC2008 | Fundamental Electric Circuit Theory | 3 | 6 | Major | Bachelor | Korean | Yes | ||
Based on the understanding of basic circuit passive elements, DC theory and AC theory are learned. DC theory deals with circuit analysis techniques and time response, and AC theory deals with sinusoidal circuit analysis, sinusoidal power analysis, 3-phase circuit, passive filter, and active filter. The purpose is to cultivate the understanding and design ability of the circuit based on vairous components and parts. | |||||||||
MCC3001 | Introduction to Applied Physical Chemistry | 3 | 6 | Major | Bachelor | Korean | Yes | ||
This course offers some fundamentals for understanding physicochemical properties of materials for chemical engineering, textile engineering, and polymer engineering. Starting with equation of state, principles of 1st and 2nd law of thermodynamics, chemical and phase equilibria will be introduced. | |||||||||
MCC3002 | Introduction to Thermo & Fluid dynamics | 3 | 6 | Major | Bachelor | Korean | Yes | ||
The aim of the Engineering Thermo&Fluid dynamics is to estimate the energy and fluid mechanics based on lots of essential concepts related with the mechanical engineering. In the contents of thermodynamics, it deals with the first and second laws of thermodynamics based on the fundamental concepts of energy, entropy and properties in order to effectively utilize the energy. The basic principles of fluid mechanics deals with basic concepts and properties of fluid, such as streamlines and path lines, fluid statics, control volume approach, continuity equation, momentum equation, energy equation, Bernoulli's equation, dimensional analysis and similitude, and pipe flows. | |||||||||
MCC3003 | MaterialsProcess Engineering | 3 | 6 | Major | Bachelor | Korean | Yes | ||
Thiscourse introduces various fabrication and working processes for the engineering materials made of mainly metal, ceramic, and polymer materials. Efforts will be devoted to understand the relations between the processes, microstructures, and resultant properties of materials. Consequently, designing the process method for engineering parts with desired properties will be introduced. | |||||||||
MCC3004 | UnderstandingofMaterialsCharacterization | 3 | 6 | Major | Bachelor | Korean | Yes | ||
With the suggestion of various advanced devices, the understanding of the methods to utilize materials characterization tools is also essential in the field of materials science and engineering. This class is to study the fundamental knowledge on analysis instruments with various materials, used in semiconductors/electronics/energies/bios/sensors, to distinguish pros and cons of individual tools, and finally perform the characterization of the real examples. This study is available to apply in the field study of research and industry. | |||||||||
MCC3005 | Electronic and Electrical Materials Engineering | 3 | 6 | Major | Bachelor | Korean | Yes | ||
The basics of quantum mechanics are covered to understand the physical properties of various electrical and electronic materials, and the physical properties of macroscopic and microscopic states. By understanding the crystal structure, bonding state, and thermal and electrical properties of solids, the polyhedral effect is introduced. Learn the physical theory of real solid states. Learn the basics of electronic structure to understand general physical theories such as insulators, dielectrics, and semiconductor materials, and learn the operating principles of semiconductors and capacitors and other applied devices. Through this lecture Basic physics theories to understand the physical properties of battery and electronic materials are acquired, and the theory is expanded to specific applications. |