Quantum Mechanics 1100-2AF23
This course has not yet been described...
Main fields of studies for MISMaP
Course coordinators
Mode
Prerequisites (description)
Learning outcomes
Knowledge:
- knowledge of physical phenomena demonstrating incompatibility of classical physics with microscopic world
- mastering basic notions and mathematical formalism of quantum mechanics
- comprehension of the quantum picture of physical quantities, such as energy or angular momentum
Skills:
- solving standard problems in nonrelativistic quantum mechanics
- describing quantum phenomena using simple mathematical models
- explaining effects resulting from wave-particle duality and quantum interference
Assessment criteria
Class:
Grading will include:
- tests
- activity during classes
Final grade:
Final grade will be based on:
- grade from the class
- grade from written exam
- grade from oral exam
Practical placement
none
Bibliography
1. L. Schiff, Quantum Mechanics.
2. L.D. Landau and E.M. Lifszyc, Quantum Mechanics.
3. I. Białynicki-Birula, M. Cieplak and J. Kamiński, Theory of Quanta.
4. B.G. Englert, Lectures on Quantum Mechanics.
5. R.L. Liboff, Introductory Quantum Mechanics.
6. R. Shankar, Quantum Mechanics.