MTH211
J
|
CREDIT:2
SPRING
|
Calculus II
Vector calculus, including necessary topics in calculus of many-variable functions. Includes derivation of vector-valued functions, line and surface integrals, theorem of Stokes, theorem of Gauss and potential fields. One period of lecture and two periods of recitation weekly. Prerequisite: Calculus I.
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MTH212
J
|
CREDIT:2
AUTUMN
|
Function Theory of One Complex Variable
Calculus of complex functions. Includes derivatives and integrals of functions of a complex variable, power series, calculus of residues and analytic continuation. One period of lecture and two periods of recitation weekly. Prerequisite: Calculus.
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MTH213
J
|
CREDIT:2
WINTER
|
Theory of Differential Equations
Introduction to the theory of differential equations. Includes linear ordinary differential equations, existence theorem of solutions and eigenvalue problems. One period of lecture and two periods of recitation weekly. Prerequisite: Calculus.
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PHY102
J,E
|
CREDIT:2
AUTUMN
|
Introduction to Physics
This course provides an introduction to fundamental concepts and laws related to energy and motion in the physical science.
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PHY103
J,E
|
CREDIT:2
WINTER
|
Foundation of Physics
This course introduces students to basic principles in the physical science related to electromagnetism, waves, optics, and quantum physics.
|
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PHY104
J,E
|
CREDIT:2
WINTER
|
Introduction to Physics Laboratory
This course consists of a series of experiments related to the topics covered in Introduction to Physics. Students learn how to design experiments, use measuring instruments, analyze data, give presentations, and write lab reports.
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|
PHY105
J
|
CREDIT:2
SPRING
|
Foundation of Physics Laboratory
This course consists of a series of experiments related to the topics covered in Foundation of Physics. Students learn how to design experiments, use measuring instruments, analyze data, give presentations, and write lab reports.
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|
PHY106
J
|
CREDIT:2
SPRING
|
Hot Topics in Physics
This course will introduce students to active areas of research in physics and applied physics. The topics will be introduced in such a way that even those without a strong background in science will be able to gain a glimpse of the what is going on at the forefront of science.
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PHY201
E
|
CREDIT:2
SPRING
|
Mathematics for Natural Scientists
This course provides an introduction to mathematics mainly for physicists. Recommended to be taken after at least two fundamental Mathematics courses, LINEAR ALGEBRA I and CALCULUS.
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PHY211
J
|
CREDIT:2
SPRING
|
Intermediate Physics Laboratory I
This course will consist of a series of experiments related to optics, electro-magnetism and bio-physics. Students will learn how to design experiments, use measuring instruments, analyze data, give presentations, and write lab reports.
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|
PHY212
E
|
CREDIT:3
WINTER
|
Mechanics
The course will provide an intermediate level presentation of concepts in mechanics. Topics will include force laws, rotational motion, oscillations, collisions, and analytical mechanics.
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|
PHY213
J,E
|
CREDIT:2
AUTUMN
Offered Alternate Year
|
Mechanics of Fluids and Elastic Body
This course provides an introduction to Continuum Mechanics (Fluid Mechanics and Mechanics of Elastic Body).
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|
PHY221
J
|
CREDIT:3
SPRING
|
Electricity and Magnetism
The course will provide an intermediate level presentation of concepts on electromagnetism based on Maxwell''s equation. The students will also learn its relation to specific phenomenon.
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|
PHY222
J
|
CREDIT:2
AUTUMN
|
Intermediate Physics Laboratory II
This course will consist of a series of experiments related to electronic devices such as diodes and transistors. Students will learn how to design experiments, use measuring instruments, analyze data, give presentations, and write lab reports.
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|
PHY231
J
|
CREDIT:2
SPRING
|
Modern Physics
This course provides an introduction to fundamental concepts in optics and quantum mechanics.
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|
PHY232
J
|
CREDIT:3
AUTUMN
|
Modern Physics Laboratory
This course will consist of a series of experiments related to the topics covered in Modern Physics I ^& II. Students will learn how to design experiments, use measuring instruments, analyze data, give presentations, and write lab reports.
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PHY233
J,E
|
CREDIT:3
AUTUMN
|
Foundation of Quantum Mechanics
This course deals with fundamentals of quantum physics.
|
|
PHY241
J,E
|
CREDIT:2
AUTUMN
Offered Alternate Year
|
Physics of Oscillations and Waves
This course provides an understanding of oscilaltion and wave phenomena observed in various fields.
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|
PHY242
J
|
CREDIT:3
WINTER
|
Statistical Physics
The course will provide an intermediate level presentation of concepts in statistical physics. Topics will include laws of thermodynamics, state functions, and the canonical ensemble formalism.
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|
PHY251
J
|
CREDIT:2
AUTUMN
|
Astronomy
The basis of astrophysics is introduced. While the hierarchical structure of the universe is formed from planets, stars, galaxies, and clusters of galaxies, the most fundamental astrophysical objects are stars. Firstly, we learn the physics of stellar structure and evolution, and discuss the elements produced through lives and death of stars. Secondly, we study the processes of formation and evolution of galaxies, which are formed from clusterings of stars. Finally, the birth of the universe and the formation of the hierarchical structure are introduced.
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PHY261
J
|
CREDIT:2
WINTER
|
Intermediate Physics Laboratory III
This course will consist of a series of experiments related to nuclear physics and laser optics. Students will learn how to design experiments, use measuring instruments, analyze data, give presentations, and write lab reports.
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PHY262
J
|
CREDIT:2
SPRING
|
Thermal Physics
This course provides an introduction to fundamental concepts and laws concerning heat and entropy in physical sciences.
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|
PHY381
J
|
CREDIT:2
SPRING
|
Analytical Mechanics and Relativity
Following MECHANICS, advanced topics concernig classical mechanics (including Analytical mechanics and Relativity) are discussed.
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PHY383
J,E
|
CREDIT:2
WINTER
|
Quantum Mechanics
This course deals with advanced topics of quantum physics.
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|
PHY384
J
|
CREDIT:2
SPRING
|
Special Studies in Physics IV
Selected basic and advanced topics in physics will be discussed.
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|
PHY385
J,E
|
CREDIT:2
SPRING
|
Special Studies in Physics A
Selected basic and advanced topics in physics will be discussed.
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|
PHY386
J,E
|
CREDIT:2
AUTUMN
|
Special Studies in Physics B
Selected basic and advanced topics in physics will be discussed.
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|
PHY387
J,E
|
CREDIT:2
WINTER
|
Special Studies in Physics C
Selected basic and advanced topics in physics will be discussed.
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|
QNMS501
E
|
CREDIT:2
WINTER
|
Advanced Studies in Material Science
Recent theoretical developments in studies of the physical structure of matter; in particular, nonequilibrium statistical mechanics and thermodynamics.
|
|
QNMS505
E
|
CREDIT:2
SPRING
Offered Alternate Year
|
Condensed Matter Physics
Recent developments in experimental studies on condensed matter physics. The topic can be chosen from anything related to experiments in condensed matter physics.
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|
QNMS512
E
|
CREDIT:2
SPRING
Offered Alternate Year
|
Solid State Physics
Features Theoretical Physics Topics such as Superfluidity of Helium associating Quantum Effects, Oxide Superconductor, Giant Magneto Resistive effect, Graphene, Spintronics.
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|
STH391
|
CREDIT:3/(9)
EVERY TERM
|
Senior Thesis
Senior students, under the guidance of an advisor, will select a subject related to their major and prepare a senior thesis. The final product should represent the efforts of one year of sustained and rigorous thinking, research, and writing. Required of all students in their senior year.
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