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Vår 2024
FYS-2000 Quantum mechanics - 10 stp
The course is administrated by
Institutt for fysikk og teknologi
Type of course
The course is available as a singular course. The course is also available to exchange students and
Fulbright-students.
Course overlap
FYS-113 Quantum mechanics 10 ects
Course contents
The course is concerned with the basics of quantum physics starting with the Bohr atomic model and its limitations. Schrödinger equation and wave functions will be introduced and applied to simple quantum mechanical systems in one dimension. Heisenberg's uncertainty relation will be shown as well as the tunneling and the formalism of quantum mechanics. Quantum systems in three dimensions and angular momentum will be described, and finally the hydrogen atom. The spin will be introduced and an explanation for the periodic system. Throughout the course elected examples for quantum effects in modern physics are given.
Admission requirements
Generell studiekompetanse eller realkompetanse + SIVING
Local admission, application code 9391 - enkeltemner i ingeniørfag.
Objective of the course
Knowledge: The student is able to
- describe the strength and limitations of Bohr's atomic model;
- describe the Schrödinger equation, wave functions and their physical interpretation;
- describe stationary and non-stationary states, as well as expectation values;
- describe the concepts of spin and angular momentum in quantum physics.
Skills: The student is able to
- use the Schrödinger equation to describe simple one-dimensional systems
- use the solution to compute probabilities, expectation values, uncertainties and time evolution of the systems
- explain the structure of the periodic system of the elements
General expertise: The student is able to
- understand the role of measurements in quantum systems
- the wave-particle duality of photons
- the role of quantum effects to explain physical phenomena of modern physics
Language of instruction
The language of instruction is English and all of the syllabus material is in English. Examination questions will be given in English, but may be answered either in English or a Scandinavian language.
Teaching methods
Lectures: 50 hours
Exercises: 30 hours