* Mathematical Physics (1), (2) This course will help students acquire
the ability to express various physical phenomena
through mathematical concepts such as series, vector
analysis, calculus, Fourier series, tensor analysis
of differential equations, probability, special function
theory and the application of these concepts.
* Classical Mechanics (1), (2)
Deals with kinetics, movement of material points, moving
coordinate systems, mechanics of rigid body, Lagrangian
mechanics and theories of small oscillation.
* Electronic Physics and Laboratory (1), (2)
Through the actual composition and production of basic
electronic circuits, students will gain familiarity with
various measuring instruments and will gain the ability
to apply and build on various research and experiments.
* Modern Physics (1), (2)
This lecture will touch upon the quantum phenomenon, which
triggered the start of modern physics, the wave nature
of matter, the structure of atom, and what is required
from physics by modern technology.
* Special Topics in Physics (1), (2)
To promote interest in physics and to enhance the comprehensive
understanding of physics, this course introduces areas
where current research is most active.
* Quantum Physics & Practice (1), (2)
Deals systematically with the basic concepts and theories
of quantum dynamics through lectures on classic quantum
theory, Shrodinger¡¯s equation, mathematical examination
of wave mechanics, one-dimensional and three-dimensional
problems, angular momentum, perturbation theory, scattering
and collision.
* Thermal Physics
Introduces statistical methods and deals with the basic
concepts of thermodynamics such as the interaction between
internal energy entropy and the system, the models of various
systems and state equation.
* Fluid Physics
Comprehensively and systematically depicts the fluid including
liquid and vapor based on dynamics. Main topics include
the physical features of fluid, mass, momentum, the law
of energy conservation, vorticity equations and Kelvin¡¯s
theorem, two-dimensional and three-dimensional complete
fluid motion, incompressible viscous fluid, boundary layers,
turbulent flow and non-viscous compressible fluid.
* Electrodynamics & Practice (1), (2)
Covers electrostatics, magnetostatics, electric currents,
magnetic fields, electromagnetic induction, magnetic property
of materials, alternating currents, Maxwell¡¯s equation
and electromagnetic waves, Poisson¡¯s equations and Laplace¡¯s
equations.
* Modern Physics Laboratory (1), (2)
Promotes strong understanding of the theories learned in
Modern Physics through Millikan¡¯s experiment, measurement
of Michelson¡¯s interferometer e/m and the photoelectric
effect.
* Acoustics
Based on the theory of electric motion, this course focuses
on understanding the processes of generation, propagation
and reception of sound and the dynamic features of the
medium. Also introduces physical ultrasonics and its applied
forms.
* Computational Physics
This course will cover computer programming used for interpretation
of physical figures and simulations.
* Statistical Physics
This introductory course deals comprehensively with heat,
thermodynamics and the principles and application of statistical
physics. Primary topics include statistical theory, statistical
mechanics of thermal physics, various rules of thermodynamics,
theory of ideal gas, equilibrium of phase and phase transition.
* Solid State Physics
Focuses on the physical properties and phenomena of solid
materials.
* Optics
Based on wave optics, this course focuses on the quantum
theory of light including the propagation of light waves,
diffraction, interference, the polarization of light, the
spectrum of light, geometric optics and solid optics.
* Technical Writing for Physics
This course teaches various skills and information necessary
for writing an English paper on physics, including creating
an outline, forming sentences, and writing papers on general
topics.
* Special Research in Physics (1), (2)
In this course, students who elect to write a graduation
thesis, present their research, discuss matters related
to their research and find directions for future research.
* Sensor
Focuses on the physical principles and application of sensors
that measure light, magnetism, temperature, humidity, ultrasonic
waves and pressure.
* Plasma Physics
Develops an understanding of basic phenomena that take
place in plasma through fluid mechanics and basic dynamical
methods.
* Numerical Analysis Using C Language
Students will learn the syntax of C, which is the basic
language of programming. Students will also create simulation
programs, such as Interpolation or Matrix operation, and
configure them for use in physics education.
* Device Interface
The course will discuss interfaces between equipment used
for physics tests and computers, and managing these interfaces.
* Physics of Display Materials
This course will cover the physics of display materials
and the radiation phenomenon required in the display field,
which is a technology-intensive industry.
* Laser Physics
Focuses on the basic principles of laser, the characteristics
of various atomic lasers, solid lasers and semiconductor
lasers. The usage and application of these lasers are also
covered.
* Microprocessor & Lab
Focuses on understanding the structure and principles of
microprocessors and practices the composition of various
digital systems.
* Advanced Physics Laboratory
Through this course, students conduct the Frank-Hertz experiment,
diffraction of light experiments and experiments related
to modern physics. The professor and students jointly choose
tasks that will enhance the students' motivation for research.
* Semiconductor Physics
Based on quantum mechanics, solid-state physics and statistical
physics, this course focuses on the energy band gap structure
of semiconductor crystals and calculates the density of
conductible electrons and holes. Deals with manufacturing
principles of semiconductors and the technologies for semiconductor
components as well.
* Nuclear Physics
Deals with the structure and features of a nucleus, isotopes,
the principle of radioactive breakdown, nuclear forces,
elementary particles and nuclear reaction.
Seoul Campus 107, Imun-ro, Dongdaemun-gu, Seoul, 130-791,
Korea Tel +82-2-2173-2063 Fax +82-2-2173-3387
Global Campus 81, Oedae-ro, Mohyeon-myeon, Cheoin-gu,Yongin-si,
Gyeonggi-do, 449-791, Korea Tel +82-31-330-4114
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