KEMS401 Quantum Chemistry (6 cr)
Learning outcomes
A student, who has passed the course, has deepened his/her understanding of the theory of quantum mechanics. He/she is familiar with Dirac's bra and ket formalism and can apply it to a harmonic oscillator. In addition, the student is able to solve simple quantum mechanical problems using wave mechanics both exactly and with different approximation methods. She/he knows how to apply perturbation theory to describe the interaction of atoms and molecules with electromagnetic radiation, and understands the origin of covalent bond.
Study methods
The course will be lectures in English if needed. Lectures willl take place in the first period of the fall semester every year. To complete the lecture course a student will take two class tests. At another time, a student can pass the course by taking a final exam.
Content
The Fundamentals of quantum mechanics including, operators, eigenvalue equations, commutators, the Schrödinger equation, particle in a box model, harmonic oscillator, hydrogen atom, time-independent and time-dependent perturbation theory, variational theorem, absorption and emission of electromagnetic radiation, and the covalent bond.
Materials
Fayer's book and material given during lectures
Literature:
| ISBN-number | Author, year of publication, title, publisher |
|---|---|
| 0-19-514195-4 | Michel D. Fayer Elements of quantum mechanics |
Assessment criteria
The course can be completed either with two class tests (during lectures) or by taking one final exam.
For class tests, a student can earn extra points by solving actively demo problems.
Assessment criteria for each grade
Fail < 50 % of the maximum points
grade 1 corresponds to 50 % of the maximum points
grade 2 corresponds to 60 % of the maximum points
grade 3 corresponds to 70 % of the maximum points
grade 4 corresponds to 80 % of the maximum points
grade 5 corresponds to 87 % of the maximum points
Prerequisites
Physical chemistry 2 course (KEMA225)