Course Description
History and philosophy of quantum mechanics will first be reviewed in this course. Wave function and its statistical interpretation will be investigated. Time-independent Schrodinger equation will be discussed with some examples of infinite square well, finite square well and harmonic oscillator, etc. Then, hydrogen atom will be studied by Schrodinger equations in three dimensions. Furthermore, wave function of two-particle systems, atoms and solids will be introduced. The parts of application cover contents of perturbation theory, variational principle, WKB approximation and adiabatic approximation.
Intended Learning Outcomes
CILO-1: Students will be able to conceptualize and describe the principles, concepts, theories and framework related to the quantum mechanics.
CILO-2: Students will be able to synthesis, critically assess, analyze and perform different course concepts.
CILO-3: Students will be able to conceptualize, formulate and defend independent judgments in the reporting.
CILO-4: Students will be able to critically assess the applications of the quantum mechanics into real reporting.