Subjects

Quantum Mechanics

Course: Physics

Structural unit: Faculty of Physics

Title

Quantum Mechanics

Code

ОК 16.

Module type

Обов’язкова дисципліна для ОП

Educational cycle

First

Year of study when the component is delivered

2021/2022

Semester/trimester when the component is delivered

5 Semester

Number of ECTS credits allocated

Learning outcomes

Know the basic postulates of quantum mechanics. Know the basics of representation theory. Be able to perform basic operations with operators - count the switches of operators of physical quantities and find their average values Be able to obtain energy spectra of particles in one-dimensional potentials Be able to calculate the spectrum and wave functions of a particle in two- and three-dimensional potentials Ability to present the results of independent work Processing of the necessary information, its ordering and assessment of reliability

Form of study

Full-time form

Prerequisites and co-requisites

1. Know the basics of mathematical analysis, linear algebra, function theory of complex variables, mathematical physics. 2. Be able to solve elementary differential equations, differential equations in partial derivatives, look for eigenvalues and eigenfunctions of linear self-adjoint operators. 3. Have basic skills in calculating derivatives of complex functions, integrals.

Course content

Мodule 1 Topic 1 Basic laws of quantum mechanics and its connection with "classical" physics. Topic 2 Waves de Broglie. The main task of quantum mechanics. The principle of complementarity. Topic 3 The first postulate of quantum mechanics. Topic 4 The second postulate of quantum mechanics. Topic 5 The third postulate of quantum mechanics. Topic 6 The ratio of uncertainties. Мodule 2 Topic 7 Schrödinger's equation. Continuity equation. The passage of a particle through a barrier. Topic 8 Changing the average values of physical quantities over time. Poisson's quantum brackets. Topic 9 Harmonic oscillator: wave approach, secondary quantization. Topic 10 Pure and mixed states Topic 11 Hydrogen atom.

Recommended or required reading and other learning resources/tools

1. Dirac P.A.M. The Principles of Quantum Mechanics. Oxford at the Clarendon Press. 1947. 2. Федорченко А.М. Теоретична фізика. т.2, Київ, Вища школа, 1993. 3. Вакарчук І.О. Квантова механіка. - Львів, ЛДУ, 2004. 4. Машкевич В.С. Годенко Л.П. Квантова фізика. Конспект лекцій Київ, КПІ, 1990. 5. Bohm A. Quantum Mechanics: Foundations and Applications. Springer. 1986. 6. Messiah A. Quantum Mechanics. Dover Books on Physics. 2014. 7. Flugge S. Practical Quantum Mechanics. Springer. 1999. 8. Cronin J.A., Greenberg D.F., Telegdi V.L. University of Chicago Graduate Problems in Phys-ics with Solutions. University of Chicago Press. 1979.

Planned learning activities and teaching methods

Lectures, practical classes, independent work, consultations

Assessment methods and criteria

Colloquium, Modular control works, Tasks for independent work Test work

Language of instruction

Ukrainian

Lecturers

This discipline is taught by the following teachers

Departments

The following departments are involved in teaching the above discipline