For more details on the courses, please refer to the Course Catalog
Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
---|---|---|---|---|---|---|---|---|---|
CHS7002 | Machine Learning and Deep Learning | 3 | 6 | Major | Bachelor/Master/Doctor | Challenge Semester | - | No | |
This course covers the basic machine learning algorithms and practices. The algorithms in the lectures include linear classification, linear regression, decision trees, support vector machines, multilayer perceptrons, and convolutional neural networks, and related python pratices are also provided. It is expected for students to have basic knowledge on calculus, linear algebra, probability and statistics, and python literacy. | |||||||||
COV3028 | Practical Patent Law for Inventors | 3 | 6 | Major | Bachelor | SKKU Institute for Convergence | - | No | |
Under conventional education system, a class which teaches capability to do creative invention is divided from a class which teaches capability to help inventors to protect inventions as patents. This class, as commingling such two classes, trains inventors who can exploit their inventions, based on: on the whole process of invention, always the perspective of patent protection must be applied; patent-based perspective can enable inventors make better inventions; a good invention without being a strong patent cannot be commercially successful, etc. Specifically, being taught are: prior art search for establishing direction of R&D; evaluation of patentability of an invention; his invention’s infringement of another’s patent right, agreement of a license contract, etc. In addition, this class enables such students who are preparing the “Patent Attorney” examination to grasp basic concepts of the patent law. | |||||||||
DES4001 | Convergence Capstone Design | 3 | 6 | Major | Bachelor/Master | Design | Korean | Yes | |
Various students from different majors, Design, Art, IT, Business, Engineering, and etc., are gathered to study the development of future new technology, services and creative design products. Also, they are processing the prototype of the study and supporting the application of effective ideas. The purposes of this study are to overcome the present level of studies' approaches and create new and innovative values and to acquire creativeness, Problem Based Learning skill, and ability to conduct Team Project. | |||||||||
EAM2003 | Advanced Defects in Materials | 3 | 6 | Major | Bachelor | 2-3 | - | No | |
Various kinds of defects in solid and resultant properties will be studied. Basically, effect of stacking fault, vacancy, dislocation, grain boundary, twinning, impurity on properties will be introduced. Specifically, various kinds of dislocation such as screw dislocation, edge dislocation, immobile dislocation, mobile dislocation, and crooked dislocation, dislocation reaction, dislocation source, stress field produced by dislocation, and dislocation motion will be studied. In addition, variations of mechanical and electrical properties dislocations will be discussed. | |||||||||
EAM2004 | Controlled Crystal Engineering | 3 | 6 | Major | Bachelor | 2-3 | - | No | |
This course covers atom movement and/or atomic arrangement in solids, which results in atomic mixing, alloying and phase transformation. It includes a fundamental theory of solid state diffusion, mathematical approaches of diffusion, diffusion mechanism and kinetics, high diffusivity paths such as grain boundary and surface, and application to materials science and engineering. In addition, this course covers mechanism of nucleation & growth of materials, control of solid/liquid interface morphology during solidification, and single crystal growth will be discussed. | |||||||||
EAM2008 | Energy Advanced Materials | 3 | 6 | Major | Bachelor | 2-3 | Korean | Yes | |
This course covers the general method and specific techniques for storaging energy derived from some primary source in a form convenient for use at a later time. Moreover, latest development and/or special topics of energy advanced materials. | |||||||||
EAM2011 | Advanced Materials Process Engineering | 3 | 6 | Major | Bachelor | 2-3 | English,Korean | Yes | |
Principles of metal working and the dependence of the properties of materials and related microstructural evolution on working will be studied. Specifically, stress and strain relationship for elastic and plastic regions, theory of plasticity, and properties of mechanical properties will be understood. In addition, the degree of plastic deformations as a function of the state of stress and various metal workings such as rolling, drawing, extrusion, and pressing will be studied. | |||||||||
EAM2012 | Introduction to Semiconductor | 3 | 6 | Major | Bachelor | 2-3 | Korean,Korean | Yes | |
Various electronic materials, their microstructures, physical properties, and applications will be studied. First, theory of free electron model, electric properties of materials, energy band, energy gap, and Fermi energy, etc., will be understood. Second, theory and properties of semiconductors and their devices will be studied and electric property, crystal structure, and microstructures of various semiconductors and their practical applications will be introduced. | |||||||||
EAM2039 | Modern Physics | 3 | 6 | Major | Bachelor | 2-3 | English,Korean | Yes | |
In order to properties of materials, basics of modern physics such as relativity, particle properties of waves, wave properties of particles, duality, uncertainty property will be studied. Subsequently, atomic structure in terms of classical and quantum physics will be introduced, Concept of energy band will be introduced to understand phyccal and chemical properties of materials. | |||||||||
EAM2040 | Electromagnetic Theory | 3 | 6 | Major | Bachelor | 2-3 | - | No | |
Electro-magnetics is basic to understand all electric and magnetic phenomena, and electric magnetic field theory is required for a full understanding, design, and operation of many practical systems. This lecture covers the physical basis of electric and magnetic phenomena, the electromagnetic theory and wave mechanics, and the interaction of particles with electromagnetic field. | |||||||||
EAM2042 | ThermodynamicsⅠ | 3 | 6 | Major | Bachelor | 2-3 | English,Korean | Yes | |
The explanation and application first, second and third law of thermodynamics, the statistical interpretation of entropy, heat capacity and anxiliary functionsphase equilibria and the behavior of gases. | |||||||||
EAM2046 | Physical chemistry | 3 | 6 | Major | Bachelor | 2-3 | Korean,English | Yes | |
Basic theory of thermodynamics and chemical kinetics of materials are introduced. After the states of matter such as gas, liquid and solid are defined, Specific heat of gas will be discussed in view of classical theory as well as quantum theory in conjunction with Maxwell - Boltzman distribution. Basic concept and the necessity of new thermodynamic functions i.e. entropy and free energy are given, which leads to useful treatment on the equilibrium of gas( ideal or real) and solution( ideal and real). Chemical kinetics is discussed in Phenomenological and molecular point of view. Gas reaction rate is considered with the collision theory and the activated complex theory. | |||||||||
EAM2047 | Crystal structure and X-ray diffraction | 3 | 6 | Major | Bachelor | 2-3 | English,Korean | Yes | |
The basic method classfying the crystals in nature such as Bravais lattice, space group, point group and the symmetry each structure has are introduced. Theface centered cubic, body-centered cubic, hexagonal close packed lattice which the most of the metals assume, the diamond and the zinc blende structure for semiconductors, the perovskite structure for ceramics are analyzed in depth. The X-ray diffraction and the electron beam diffraction methods are introduced as examples of analyzing the crystal structure. | |||||||||
EAM2056 | Design and Drafting in Engineering | 3 | 6 | Major | Bachelor | 2 | - | No | |
This class is aimed to develop material scientists to understand, analyze, and create general mechanical draftings and electrical circuits. Instruction on the basic terminologies, concepts, and fundamentals of both mechanical and electrical draftings, combined with practice will help students to obtain basic knowledge and skills on drawings in engineering. | |||||||||
EAM2057 | Introduction to Advanced Materials Engineering 1 | 3 | 6 | Major | Bachelor | 2 | English,Korean | Yes | |
This course provides fundamental approach for understanding all the types of materials. Specifically, atomic structure and bonding, structures of metals and ceramics, and polymer, imperfections in solids and diffusion will be introduced. In addition, mechanical properties, phasse diagrams and phase transformations will be studied. |