Undergraduate
Curriculum of Dep. of Mechanical Eng.
Entering class : 2019
1st Year
1st Semester (16)
-
Completion divisionSubjectCodeCredit
-
General Education Requirements-2Closed
Grade 1 Semester 1st Semester Code - Subject Academic English Completion division General Education Requirements Credit 2 Outline - -
General Education RequirementsXAA13583Closed
Grade 1 Semester 1st Semester Code XAA1358 Subject CALCULUS Ⅰ Completion division General Education Requirements Credit 3 Outline As a basic mathematics course for students in natural science college we study differentiation and integration of one variable real-valued functions, emphasizing basic concepts and applications. The topics are limit functions, continuity, derivatives, polar coordination and proper integrals. -
Fundamental SciencesXAA10773Closed
Grade 1 Semester 1st Semester Code XAA1077 Subject PHYSICS Ⅰ Completion division Fundamental Sciences Credit 3 Outline This course covers general theories in physics, focusing on statics and dynamics. -
Fundamental SciencesXAA10801Closed
Grade 1 Semester 1st Semester Code XAA1080 Subject PHYSICS LABORATORY Ⅰ Completion division Fundamental Sciences Credit 1 Outline A lab course for students going majoring in basic science to experience fundamentals of the nature and to develop their abilities to think and research through basic experiments of physics. -
Fundamental SciencesXAA14933Closed
Grade 1 Semester 1st Semester Code XAA1493 Subject COLLEGE CHEMISTRY Completion division Fundamental Sciences Credit 3 Outline Introduction to the fundamental concepts of chemistry designed for students in the natural sciences. -
Major Foundations00078423Closed
Grade 1 Semester 1st Semester Code 0007842 Subject Basic Programming for Mechanical Engineering Completion division Major Foundations Credit 3 Outline Concept and grammar of C language should be provided, and programming skills to solve the given problem can be achieved. This level is a beginner class to support the major classes of Mechanical Engineering. -
Major Foundations00078001Closed
Grade 1 Semester 1st Semester Code 0007800 Subject Self - Design Seminar I Completion division Major Foundations Credit 1 Outline Self - Design Seminar I
1st Year
2nd Semester (16)
-
Completion divisionSubjectCodeCredit
-
General Education Requirements-2Closed
Grade 1 Semester 2nd Semester Code - Subject 글쓰기이론 및 실제 Completion division General Education Requirements Credit 2 Outline - -
General Education RequirementsXAA13593Closed
Grade 1 Semester 2nd Semester Code XAA1359 Subject CALCULUS(2) Completion division General Education Requirements Credit 3 Outline As a contiunation of "Caculus (1)" we study properties of partial derivatives, multiple integrals, series and matrices. -
Fundamental Sciences00001023Closed
Grade 1 Semester 2nd Semester Code 0000102 Subject PHYSICS Ⅱ Completion division Fundamental Sciences Credit 3 Outline Mechanics, thermodynamics, electricity and magnetism, atomic and nuclear physics, elementary particles and general information about the theory of relativity deals with. -
Fundamental Sciences00001031Closed
Grade 1 Semester 2nd Semester Code 0000103 Subject PHYSICS LABORATORY Ⅱ Completion division Fundamental Sciences Credit 1 Outline Physics Lab (1) as an extension of the basic concepts are understood through experiments. Mainly electromagnetism, optics, and shall perform such basic experiments. -
Major Foundations00078833Closed
Grade 1 Semester 2nd Semester Code 0007883 Subject Computational Mechanical Drawing Completion division Major Foundations Credit 3 Outline In this course, students will utilize parametric-based CAD software to create 3D models of machine parts and derive working drawings (detail and assembly drawings including parts lists) from the 3D geometry. Topics covered include dimensioning techniques and application of Geometric Dimensioning and Tolerancing, mechanical drafting standards, sectioning techniques, and specifying threads and fasteners. The engineering design process is also presented. This course is divided into two courses (1, 2) for effective understanding and practice. This course is first one. -
Major Foundations00078011Closed
Grade 1 Semester 2nd Semester Code 0007801 Subject Self - Design Seminar II Completion division Major Foundations Credit 1 Outline Self - Design Seminar II -
Major Foundations00066503Closed
Grade 1 Semester 2nd Semester Code 0006650 Subject Multidisciplinary Engineering Design Completion division Major Foundations Credit 3 Outline This course provides a broad overview of the generic concepts of design, design thinking and design research, and within the backdrop of this understanding, focuses specifically on the processes and techniques for carrying out engineering design in a creative manner. The course should be useful for both undergraduate and postgraduate students of engineering and design. This course is divided into two courses (1, 2) for effective understanding and practice. This course is first one.
2nd Year
1st Semester (13)
-
Completion divisionSubjectCodeCredit
-
General Education Requirements-1Closed
Grade 2 Semester 1st Semester Code - Subject 대학영어회화Ⅰ Completion division General Education Requirements Credit 1 Outline - -
Fundamental Sciences00012083Closed
Grade 2 Semester 1st Semester Code 0001208 Subject Engineering Mathematics 1 Completion division Fundamental Sciences Credit 3 Outline This course provides basic theories and applications of the homogeneous or nonhomogeneous ordinary differential equations (ODEs) to solve several engineering problems. Additionally, Laplace transform will be studied to solve various ODEs. -
Major RequirementsEPA61233Closed
Grade 2 Semester 1st Semester Code EPA6123 Subject ENGINEERING MATERIALS Completion division Major Requirements Credit 3 Outline This course aims to understand the relationships between properties, structure, processing and performance of engineering materials, and examine various methodologies to improve their strength. It further aims to provide a theoretical background of the atomistic structure, crystal structure, microstructure and types of defects which could occur within the materials. -
Major Requirements00028063Closed
Grade 2 Semester 1st Semester Code 0002806 Subject SOLID MECHANICS Ⅰ Completion division Major Requirements Credit 3 Outline A course on the concepts of forces, moments, equilibrium; principles of virtual work; analysis of structural members under axial load, torsion and bending; shear force and bending moment diagrams; statically indeterminate trusses; buckling and structural stability. -
Major Requirements00028073Closed
Grade 2 Semester 1st Semester Code 0002807 Subject ENGINEERING THERMODYNAMICS 1 Completion division Major Requirements Credit 3 Outline This course is designed to understand various fundamental laws of thermodynamics and to develop the ability to apply them to various thermal systems related to mechanical engineering. Course topics include ideal gas law, properties of pure substances, first and second law of thermodynamics for open and closed systems and cycle analysis of vapor power system -
Major ElectivesEPA60983Closed
Grade 2 Semester 1st Semester Code EPA6098 Subject ELECTRICAL AND ELECTRONIC Completion division Major Electives Credit 3 Outline Mechanical engineering students who do not major in electrical engineering understand the basics of electricity and electronics, and develop the ability to understand the relationship that all the information of modern technology is changed into electric quantity and that many devices are driven.
2nd Year
2nd Semester (19)
-
Completion divisionSubjectCodeCredit
-
General Education Requirements-1Closed
Grade 2 Semester 2nd Semester Code - Subject 대학영어회화Ⅱ Completion division General Education Requirements Credit 1 Outline - -
Fundamental Sciences00084793Closed
Grade 2 Semester 2nd Semester Code 0008479 Subject Engineering Mathematics Ⅱ Completion division Fundamental Sciences Credit 3 Outline As the extended Engineering Mathematics 1, linear algebra and Fourier transform will be covered in this course. Specifically, the properties of a matrix and eigen value problems will be studied in the linear algebra part. Additionally, basic theories for complex analysis will be covered. -
Major Requirements00018443Closed
Grade 2 Semester 2nd Semester Code 0001844 Subject Dynamics Completion division Major Requirements Credit 3 Outline Dynamics is the study of objects in motion. We will study dynamic in two parts. (1) Dynamics of a particle: we start from the applications of Newton's law of motion, proceeding to the relations between force and acceleration, work and energy, impulse and momentum. (2) Dynamics of rigid bodies: we start from motion for a system of particles, proceeding to the analysis of rigid body motions. we will calculate moment of inertia tensor. we will treat general three dimensional motion of rigid body, rotation of rigid body about a fixed axis, plane motion of ridid body. -
Major Requirements00018343Closed
Grade 2 Semester 2nd Semester Code 0001834 Subject Manufacturing Process Ⅰ Completion division Major Requirements Credit 3 Outline This subject provides applications to change mechanical, physical and chemical properties of materials directly effecting mechanical processes. Moreover, this provides also knowledge about various mechanical processes fabricating or manufacturing products or mechanical parts from raw materials. -
Major RequirementsEA060573Closed
Grade 2 Semester 2nd Semester Code EA06057 Subject FLUID MECHANICS Ⅰ Completion division Major Requirements Credit 3 Outline The behavior of fluids is critical to a wide variety of everyday applications. To understand why airplanes fly, or propellers push, or curveballs turn, or why the wind blows, we need to first understand the fundamental behaviors of fluids. Well start by defining fluid", and contrasting fluids with solids. Well use Newtons Second Law to predict the motion of fluids, and well use a few ideas from thermodynamics, too. Also, well play some clever algebraic tricks with units (Dimensional Analysis) to help us simplify complicated problems to a more manageable level. By the end of the class, you should be adept at solving problems using the following ideas: the continuum, fluid fields, streamlines, density, viscosity, control volumes and control masses, pressure, normal and shear stress, buoyancy, conservation principles (Bernoullis equation, Navier-Stokes), hydraulic jumps, potential flows, dimensional analysis, boundary layers, lift, drag, vorticity, and circulation. -
Major Electives00018373Closed
Grade 2 Semester 2nd Semester Code 0001837 Subject Solid Mechanics Ⅱ Completion division Major Electives Credit 3 Outline A course on the conceps of stress and strain transformation formula, failure theories, beam design methods, the various calculation methods of beam deflections, solving methods of statically indeterminate problems, column buckling and stability design method, the limit design method and the various energy methods are studied. -
Major Electives00018403Closed
Grade 2 Semester 2nd Semester Code 0001840 Subject ENGINEERING THERMODYNAMICS Ⅱ Completion division Major Electives Credit 3 Outline Student will be learned about gas cycle, a property of gas mixture, thermodynamic equations, chemical reactions, basics of combustion and exergy. Those are used to analyze thermodynamic cycle.
3rd Year
1st Semester (20)
-
Completion divisionSubjectCodeCredit
-
Major RequirementsEPA60323Closed
Grade 3 Semester 1st Semester Code EPA6032 Subject MECHANICAL VIBRATIONS Completion division Major Requirements Credit 3 Outline Preparation of Young Engineers, who can successfully cope with dynamic design problems must have a sound understanding of
1. Definition of Vibrations and its Relalation to the natural and engineering science
2. System analysis, mathematic Modelling, Linearization
3. Vibration behaviour of 1-DOF System
4. Vibration Isolation
5. Vibration Analysis of Multi-DOF System
6. Design of Dynamic Vibration Absorber
7. Vibration Characteristics of Continua
8. Nonlinear Vibrations -
Major RequirementsEPA60262Closed
Grade 3 Semester 1st Semester Code EPA6026 Subject MECHANICAL EXPERIMENTS Ⅰ Completion division Major Requirements Credit 2 Outline A study on basic Principles of Machine Tool, operation way and machining process of machine tools, machining, measurement of dynamic phenomena while operating machine (mechanical, vibration and sound), learning analysis methods. -
Major ElectivesEPA60233Closed
Grade 3 Semester 1st Semester Code EPA6023 Subject MANUFACTURING PROCESSES Ⅱ Completion division Major Electives Credit 3 Outline This subject provides applications to change mechanical, physical and chemical properties of materials directly effecting mechanical processes. Moreover, this provides also knowledge about various mechanical processes fabricating or manufacturing products or mechanical parts from raw materials. -
Major Electives00078113Closed
Grade 3 Semester 1st Semester Code 0007811 Subject Fundamental Design of Plant Completion division Major Electives Credit 3 Outline Recently, boiler, steam turbines, etc. have been developed in terms of efficiency through high temperature, high pressure, and automation. This class focuses on development of the design principles of boilers, steam turbines, and controls systems, which are fundamental elements of power plants, based on the characteristics of steam and power cycles. -
Major ElectivesEPA60583Closed
Grade 3 Semester 1st Semester Code EPA6058 Subject FLUID MECHANICS Ⅱ Completion division Major Electives Credit 3 Outline This course is intended to provide some fundamental aspects of fluid mechanics: basic analysis methods generally used to solve fluid mechanics problems. Emphasis will be put on understanding how flow phenomena are described mathematically so that students may acquire an ability of handling out practical engineering problems related to fluid flow phenomena. -
Major ElectivesEPA60443Closed
Grade 3 Semester 1st Semester Code EPA6044 Subject NUMERICAL ANALYSIS Completion division Major Electives Credit 3 Outline This class aims at undestanding numerical algorithms to search for a root of linear and nonlinear functions and to solve simultaneous linear equations. In addition, curve-fitting and interpolation schemes to analyze quantitative trends of scattered data and predict a value of dependent variable between two measured data points, respectively. Further, it is expected to develop an ability to apply the schemes and methods for solving real engineering problems.
3rd Year
2nd Semester (22)
-
Completion divisionSubjectCodeCredit
-
Major Requirements00018313Closed
Grade 3 Semester 2nd Semester Code 0001831 Subject MECHANICAL ELEMENT DESIGN Completion division Major Requirements Credit 3 Outline This lecture will make student have a concept about the relation between shape and functionality of the mechanical system by teaching them design method and function of mechanical components. -
Major Requirements00018472Closed
Grade 3 Semester 2nd Semester Code 0001847 Subject MECHANICAL EXPERIMENTS Ⅱ Completion division Major Requirements Credit 2 Outline (1) Carry out the experiments of tensile tests, hardness test and observation of metallic structures, to confirm the correlations between theory and practice. and train the abilities to apply on the field.
(2) Verify the theory of solid mechanics in shear force and twist moment.
(3) Learn how to write experiment reports appropriately.. -
Major Requirements00066663Closed
Grade 3 Semester 2nd Semester Code 0006666 Subject Capstone Design I Completion division Major Requirements Credit 3 Outline Based major classes of Mechanical Engineering, project plan, performance, analysis progresses should be achieved from team co-working. Problem solving, co-working skills, executive ability should be learned. Finally it should be the total architectural engineering class as a graduation requirement. -
Major Requirements00018533Closed
Grade 3 Semester 2nd Semester Code 0001853 Subject Heat Transfer Completion division Major Requirements Credit 3 Outline Energy is an important matter, which includes electricity, heating and cooling, computer, automotive, etc. To exploit the energy effectively, transfer of energy is inevitable. Heat tranfer deals with such energy transfer. Heat is transferred by conduction, convection and radiation. In this course, every aspects of heat transfer from fundamental theory to heat exchanger are dealt with. The goal of the course is to enable students to have the capability of designing energy-related machineries. -
Major ElectivesEPA61173Closed
Grade 3 Semester 2nd Semester Code EPA6117 Subject POWER ENGINE DESIGN Completion division Major Electives Credit 3 Outline For the development of ability of power system design, this course? covers the many engineering topics relevant to high performance and low emission of internal combustion engine: comparison of spark ignition and compression ignition engines, intake and exhaust, air/fuel mixture, ignition and combustion, exhaust gas pollution, heat transfer and lubrication, vibration, design of internal combustion engine, design of turbocharger and super charger including the fundamentals of fuel cell. -
Major ElectivesEPA61163Closed
Grade 3 Semester 2nd Semester Code EPA6116 Subject DESIGNOF FLUID MACHINERY Completion division Major Electives Credit 3 Outline Basic principles of energy transfer between fluid flows and fluid machineries such as pumps, compressors, and turbines are studied so that students may understand operating principles and basic structures of fluid machineries. Design practice on a certain type of fluid machinery will be assigned as a term project. -
Major Electives00087292Closed
Grade 3 Semester 2nd Semester Code 0008729 Subject Sequence Control Completion division Major Electives Credit 2 Outline In modern industrial fields under the 4th industrial revolution, various automated lines are implemented and even more automated lines are required to improve productivity. This course deals with not only sequence control theory but also PLC(Programmable Logic Controller) programming which are essential to implement sequence control for automation systems. Student should be able to implement simple automation systems utilizing PLC after experiments of PLC programming with ladder diagram. -
Major Electives00034133Closed
Grade 3 Semester 2nd Semester Code 0003413 Subject Control Engineering Completion division Major Electives Credit 3 Outline Control engineering is a multidisciplinary subject, and it has taken its place as a core course in the engineering curriculum. Control systems may consist of mechanical systems, electrical systems, chemical process, or any mixed systems of those. What the control means is to make the output of the process to track the desired reference input while keeping the process stable. To achieve the control goal, usually feedback cf the output is used. For controller design, first mathematical model of the process should be obtained and then synthesize the controllers for the models. This course deals with mathematical modeling of control process from various engineering fields and modern feedback control theory both in time domain and frequency domain in order to synthesize controllers which guarantee good performance and stability.
4th Year
1st Semester (24)
-
Completion divisionSubjectCodeCredit
-
Major Electives00066533Closed
Grade 4 Semester 1st Semester Code 0006653 Subject Capstone Design Ⅱ Completion division Major Electives Credit 3 Outline Based major classes of Mechanical Engineering, project plan, performance, analysis progresses should be achieved from team co-working. Problem solving, co-working skills, executive ability should be learned. Finally it should be the total architectural engineering class as a graduation requirement. In addition, self-consideration, evaluation about the works leads the engineering addition for the scientific achievement through exhibits and displays. -
Major Electives00022923Closed
Grade 4 Semester 1st Semester Code 0002292 Subject Computational Structure Analysis Completion division Major Electives Credit 3 Outline The basic theory of finite element method will be studied. Based on it, the method how to solve the static/dynamic structural problem will be studied using a commercial software. -
Major Electives00048923Closed
Grade 4 Semester 1st Semester Code 0004892 Subject Introduction: MicroElectoMechanical Systems Completion division Major Electives Credit 3 Outline Microelectromechanical systems (MEMS) integrate mechanical and electrical components and have feature sizes ranging from micrometers to millimeters. They may be fabricated using methods similar to those used to construct integrated circuits and they have the potential of providing significant cost advantages when batch fabricated. Their size also makes it possible to integrate them into a wide range of systems. Feature sizes may be made with size on the order of the wavelength of light, thus making them attractive for many optical applications. Microsensors (e.g., accelerometers for automobile crash detection and pressure sensors for biomedical applications) and microactuators (e.g., for moving arrays of micromirrors in projection systems) are examples of commercial applications of MEMS. -
Major ElectivesEA060293Closed
Grade 4 Semester 1st Semester Code EA06029 Subject Mechanical Engineering Design Completion division Major Electives Credit 3 Outline 본 강좌는 창의적인 공학 설계를 이끌어내는 과정을 중심으로 디자인, 디자인을 위한 사고, 그리고 디자인에 관한 연구의 일반적인 개념을 광범위하게 제공합니다. 특히, 이러한 이해의 배경 내에서, 창조적 인 방식으로 엔지니어링 설계를 수행하기위한 프로세스와 기술에 초점을 맞추고 있습니다. 이 과정은 학부 및 엔지니어링과 디자인의 대학원 학생 모두에게 유용합니다. 효과적인 이해와 실습을 위해 두 개(1, 2)로 나누어져 있으며, 본 강좌는 첫 번째 강좌입니다. -
Major ElectivesEPA61193Closed
Grade 4 Semester 1st Semester Code EPA6119 Subject AIR-CONDITIONING AND REFRIGERATION Completion division Major Electives Credit 3 Outline Based on thermodynamics, heat transfer and fluid mechanics, this course deals with every aspects of air-conditioning and refrigeration from basic theoty to equipments. Students are expected to have the capability of designing such air-conditioning and refrigeration equipments. -
Major ElectivesEPA61223Closed
Grade 4 Semester 1st Semester Code EPA6122 Subject COMPUTATIONAL FLUID MECHANICS Completion division Major Electives Credit 3 Outline CFD(Computational Fluid Dynamics) is the method to analyze the fluid flow using computer and numerical methods. The computational approach is faster and more economical way than the experimental. It is also salient in the analyzing the problems that are difficult to realize. The field of CFD has rapidly progressed with help of the progress in the computing power. In this course, the basic concept of CFD is introduced and the application example of CFD is studied by using simple program. -
Major Electives-3Closed
Grade 4 Semester 1st Semester Code - Subject 응용열전달 Completion division Major Electives Credit 3 Outline - -
Major Electives00018653Closed
Grade 4 Semester 1st Semester Code 0001865 Subject Robotics Completion division Major Electives Credit 3 Outline This course is about introduction of basics of modeling, design, planning, and control of robotic arms. The material in this course is a brief survey of relevant issues from geometry, kinematics, statics, dynamics, and control as well as matlab coding for robotics.
4th Year
2nd Semester (16)
-
Completion divisionSubjectCodeCredit
-
Major Electives00078021Closed
Grade 4 Semester 2nd Semester Code 0007802 Subject Career - Design Seminar Ⅰ Completion division Major Electives Credit 1 Outline This course provides opportunities for students to design their careers and give shape to the career plans. -
Major Electives00094353Closed
Grade 4 Semester 2nd Semester Code 0009435 Subject Introduction to Noise Engineering Completion division Major Electives Credit 3 Outline This class provides an introduction to the basic elements of acoustics for the purpose of meeting the fundamental needs of practising engineers. This class provides the knowledge and tools to understand and predict the behaviour of complex acoustical systems, including the behaviour of sound propagation in free field and simple bounded environments, and the characteristics of source radiation. It provides the fundamental knowledge required in order to study a range of other classes on more specialist aspects of acoustics. -
Major Electives00094363Closed
Grade 4 Semester 2nd Semester Code 0009436 Subject Introduction to Noise Engineering Completion division Major Electives Credit 3 Outline This class provides an introduction to the basic elements of acoustics for the purpose of meeting the fundamental needs of practising engineers. This class provides the knowledge and tools to understand and predict the behaviour of complex acoustical systems, including the behaviour of sound propagation in free field and simple bounded environments, and the characteristics of source radiation. It provides the fundamental knowledge required in order to study a range of other classes on more specialist aspects of acoustics. -
Major Electives00018673Closed
Grade 4 Semester 2nd Semester Code 0001867 Subject Energy Conversion Engineering Completion division Major Electives Credit 3 Outline This lecture tells the energy conversion from fossil fuel to electrical energy as well as fossil fuel combustion. Furthermore, basics of renewable energy such as nuclear energy, solar energy, wind energy, and fuel cell will be discussed with the relation between energy and environmental problems. -
Major ElectivesEA060543Closed
Grade 4 Semester 2nd Semester Code EA06054 Subject FLUID POWER Completion division Major Electives Credit 3 Outline - -
Major ElectivesEC061393Closed
Grade 4 Semester 2nd Semester Code EC06139 Subject Signal processing system Completion division Major Electives Credit 3 Outline Describe the Sampling Theorem and how this relates to Aliasing and Folding/ Determine if a system is a Linear Time-Invariant (LTI) System/ Take the Z-transform of a LTI system/Determine the frequency response of FIR and IIR filters/Understand the relationship between poles, zeros, and stability/Determine the spectrum of a signal using the DFT, FFT, and spectrogram.
