NWI-MOL046
Quantum Mechanics 2
Course infoSchedule
Course moduleNWI-MOL046
Credits (ECTS)3
CategoryBA (Bachelor)
Language of instructionEnglish
Offered byRadboud University; Faculty of Science; Moleculaire Wetenschappen;
Lecturer(s)
Coordinator
dr. J.M. Bakker
Other course modules lecturer
Lecturer
dr. J.M. Bakker
Other course modules lecturer
Contactperson for the course
dr. J.M. Bakker
Other course modules lecturer
Examiner
dr. J.M. Bakker
Other course modules lecturer
Academic year2019
Period
KW3-KW4  (03/02/2020 to 30/08/2020)
Starting block
KW3
Course mode
full-time
Remarks-
Registration using OSIRISYes
Course open to students from other facultiesYes
Pre-registrationNo
Waiting listNo
Placement procedure-
Aims
After this course, you
  • are able to carry out the basic analysis of quantum-mechanical energy levels and wavefunctions of the hydrogen atom
  • can explain the structure of the periodic table, and are able to derive the electron configuration terms of the elements
  • are able to apply matrix mechanics and perturbation theory to do quantum mechanical calculations
  • know the quantum-mechanical description of rotations and the properties of the angular momentum operator
Content
This course gives a broad introduction into the basics of quantum mechanics (QM) and its applications to the electronic structure of small systems. In part 2 we will extend the basic principles learned in part 1 to include angular momentum, and will combine all in the quantum mechanical description of the hydrogen atom. Using the solutions of the Schrodinger equation for the hydrogen as a basis, we will explain the electronic structure of the elements in terms of atomic orbitals, their possible configurations and term symbols, to make clear how the periodic table is formed. 
Level

Presumed foreknowledge
Required course: Quantum Mechanics 1 (NWI-MOL041) This is a course in the theme 'Physics and Mathematics'.
Test information
Written exam
Specifics

Topics
• angular momentum operators
• the hydrogen atom
• matrix mechanics
• perturbation theory and the variational method
• spin, the Pauli exclusion principle
• the periodic table
• spin-orbit coupling, term symbols
• electronic transitions and selection rules
• the Born-Oppenheimer approximation

Test information
Written exam

Prerequisites
Required course: Quantum Mechanics 1 (NWI-MOL041)
This is a course in the theme 'Physics and Mathematics'.

Required materials
Book
D.A. McQuarrie, Quantum Chemistry, 2nd edition 2008, University Science Books
ISBN:9781891389504

Instructional modes
Exam Q4

Lecture

Resit Exam Q4

Response course

Tutorial

Tests
Exam
Test weight1
Test typeExam
OpportunitiesBlock KW3, Block KW4