Aims and Objectives
Having successfully completed this module you will be able to:
- Access and use scientific resources
- Work alone and as part of a team
- Understanding of the quantum description of magnetic resonance.
- Knowledge of interactions of spins with each other and their environment.
- Understanding of principles behind the simulation and interpretation of NMR/ESR data.
- Solving magnetic resonance based problems
- Ability to present the results of solved problems in written and oral form
QM of angular momentum
spin hamiltonian ,Zeeman interaction
Chemical shift, spin-spin interactions
Coherence and polarisation transfer
Introduction to simulation tools
Learning and Teaching
Teaching and learning methods
The module consists of lectures and workshops. All materials will be available electronically via blackboard and video recordings of lectures via panopto. Lecture material, text book and directed reading will be complemented by suitable simulation software (Spindynamics) for the simulation and exploration of concepts. Students will work through problem sets designed to reinforce understanding of the lecture material. Students will present their solutions to problem sets during the workshops. For the problem sheets that are not formally assessed students will be able to work together for arrive at solutions.
|Completion of assessment task||60|
|Wider reading or practice||66|
|Total study time||150|
Workshops, Problem sets
Written and oral feedback will be given as part of the marking process of the problem sheets and during the workshops. Feedback will also be available via contacting the lecturers.
This is how we’ll formally assess what you have learned in this module.
This is how we’ll assess you if you don’t meet the criteria to pass this module.