Capabilities
\
Core Courses
A.
Knowledge of basic physics
B.
Knowledge of intermediate physics
C.
Knowledge of advanced physics
D.
Physics-related mathematics
E.
Experimantal physics capabilities
F.
Research-oriented physics
[A]
[B]
[C]
[D]
[E]
[F]
Calculus (general Mathematics) (a)(1)
◎
Calculus (general Mathematics) (a)(2)
◎
Service Learning (a)
◎
Service Learning (b)
◎
General Physics (a)(1)
◎
General Physics (a)(2)
◎
Advanced Placement of General Physics
◎
History of Physics (Ⅰ)
◎
History of Physics (Ⅱ)
◎
General Physics Lab. (1)
◎
◎
Capabilities
\
Core Courses
A.
Knowledge of basic physics
B.
Knowledge of intermediate physics
C.
Knowledge of advanced physics
D.
Physics-related mathematics
E.
Experimantal physics capabilities
F.
Research-oriented physics
[A]
[B]
[C]
[D]
[E]
[F]
General Physics Lab. (2)
◎
◎
General Physics Lab.(Ⅰ)
◎
◎
General Physics Lab.(Ⅱ)
◎
◎
Our Amazing Universe!
◎
The World of Particle Physics
◎
Coding for Simple Physics Simulation
◎
Service Learning-International Companions for Learning
International Companions for Learning
Physics for Future CXOs
◎
◎
Applied Mathematics (Ⅰ)
◎
Capabilities
\
Core Courses
A.
Knowledge of basic physics
B.
Knowledge of intermediate physics
C.
Knowledge of advanced physics
D.
Physics-related mathematics
E.
Experimantal physics capabilities
F.
Research-oriented physics
[A]
[B]
[C]
[D]
[E]
[F]
Applied Mathematics (Ⅱ)
◎
Mechanics (1)
◎
Mechanics (2)
◎
Mechanics : recitation(1)
◎
Electricity and Magnetism (1)
◎
Electricity and Magnetism (2)
◎
Electricity and Magnetism (1)
◎
Electromagnetics : recitation(1)
◎
Electronics (Ⅰ)
◎
◎
Lab for Electronics (Ⅰ)
◎
Capabilities
\
Core Courses
A.
Knowledge of basic physics
B.
Knowledge of intermediate physics
C.
Knowledge of advanced physics
D.
Physics-related mathematics
E.
Experimantal physics capabilities
F.
Research-oriented physics
[A]
[B]
[C]
[D]
[E]
[F]
Lab for Electronics(Ⅰ)
◎
Electronics (Ⅱ)
◎
Lab for Electronics (Ⅱ)
◎
Applied Mathematics (Ⅲ)
◎
Applied Mathematics (Ⅳ)
◎
Physics of the Earth and Planets
◎
◎
Quantum Physics (1)
◎
Quantum Physics (2)
◎
Thermal Physics
◎
Fundamentals of Experimental Physics
◎
◎
Capabilities
\
Core Courses
A.
Knowledge of basic physics
B.
Knowledge of intermediate physics
C.
Knowledge of advanced physics
D.
Physics-related mathematics
E.
Experimantal physics capabilities
F.
Research-oriented physics
[A]
[B]
[C]
[D]
[E]
[F]
Modern Physics Lab.
◎
◎
self-exploratory experimental physics (Ⅰ)
◎
◎
Self-exploratory Experimental Physics(Ⅱ)
◎
Optics
◎
General Astronomy
◎
Fluid Mechanics
◎
Undergraduate Student Seminar
◎
Introduction to Numerical Analysis
◎
The Physics of Energy
◎
Scientific Inquiry and Practice
◎
Capabilities
\
Core Courses
A.
Knowledge of basic physics
B.
Knowledge of intermediate physics
C.
Knowledge of advanced physics
D.
Physics-related mathematics
E.
Experimantal physics capabilities
F.
Research-oriented physics
[A]
[B]
[C]
[D]
[E]
[F]
Introduction to Computational Physics (1)
◎
Introduction to Computational Physics (2)
◎
Practical Analog Electronics
◎
◎
Practical Digital Electronics
◎
◎
◎
Special Topics in String Theory (Ⅲ)
◎
◎
Experimental Particle Physics-special Topics
◎
◎
Scanning probe microscopy: Fundamental, Application, and Practice
◎
◎
Seminar (Ⅰ)
◎
◎
Classical Electrodynamics (Ⅰ)
◎
◎
Quantum Mechanics (Ⅰ)
◎
◎
Capabilities
\
Core Courses
A.
Knowledge of basic physics
B.
Knowledge of intermediate physics
C.
Knowledge of advanced physics
D.
Physics-related mathematics
E.
Experimantal physics capabilities
F.
Research-oriented physics
[A]
[B]
[C]
[D]
[E]
[F]
Quantum Mechanics (Ⅱ)
◎
◎
Statistical Physics (Ⅰ)
◎
◎
◎
Introduction to Solid State Physics
◎
◎
Classical Mechanics
◎
◎
Introduction of Display Optoelectronics
◎
◎
◎
Introduction to Nuclear Physics
◎
◎
Introduction to Quantum Optics
◎
Introduction to Astrophysics
◎
◎
Introduction to Particle Physics
◎
◎
Particle Physics
◎
◎
Capabilities
\
Core Courses
A.
Knowledge of basic physics
B.
Knowledge of intermediate physics
C.
Knowledge of advanced physics
D.
Physics-related mathematics
E.
Experimantal physics capabilities
F.
Research-oriented physics
[A]
[B]
[C]
[D]
[E]
[F]
Introduction to Plasma Physics
◎
Introduction to Biophysics
◎
◎
Advanced Optical Microscopy in Biology
◎
◎
◎
Liquid Crystal Optoelectronics
◎
◎
◎
Special Topics on Experimental Physics (Ⅰ)
◎
◎
◎
Special Topics in Theoretical Physics (Ⅰ)
◎
◎
◎
Special Topics on Experimental Physics (Ⅱ)
◎
◎
◎
Special Topics in Theoretical Physics (Ⅱ)
◎
◎
◎
Introduction to Supersymmetry
◎
Modern Atomic and Molecular Physics
◎
◎
Capabilities
\
Core Courses
A.
Knowledge of basic physics
B.
Knowledge of intermediate physics
C.
Knowledge of advanced physics
D.
Physics-related mathematics
E.
Experimantal physics capabilities
F.
Research-oriented physics
[A]
[B]
[C]
[D]
[E]
[F]
Mathematical Structure of Quantum Mechanics (Ⅰ)
◎
◎
Introduction of Paticle Astrophycis
◎
◎
◎
Experimental Techniques in Particle Astrophysics
◎
◎
Mathematical Structure of Quantum Mechanics(Ⅱ)
◎
Introduction to differential geometry for physicists
◎
Origin of Our & Other Solar Systems
◎
Topics on Theoretical Materials Physics
◎
Attosecond Ultrafast Science
◎
Molecular Physics: From Fundamentals to Practices
◎
Introduction to Recent Trends in Atomic and Molecular Physics
◎
◎
Capabilities
\
Core Courses
A.
Knowledge of basic physics
B.
Knowledge of intermediate physics
C.
Knowledge of advanced physics
D.
Physics-related mathematics
E.
Experimantal physics capabilities
F.
Research-oriented physics
[A]
[B]
[C]
[D]
[E]
[F]
Computational Methods in Particle Astrophysics
◎
◎
Introduction to Soft Matter
◎
Instrumental Methods in Particle Astrophysics
◎
◎
History of Physics
◎
◎
Biophysics under the Microscope
◎
◎
◎
◎
◎
Introduction to Semiconductor Optoelectronics
◎
◎
Introduction to Complex Systems
◎
Core Capabilities
A
Knowledge of basic physics
B
Knowledge of intermediate physics
C
Knowledge of advanced physics
D
Physics-related mathematics
E
Experimantal physics capabilities
F
Research-oriented physics
Number of Core Courses
(Number of All Courses: 97)
49
30
17
14
25
17