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PX3511: QUANTUM MECHANICS (2017-2018)

Last modified: 16 Nov 2016 18:26


Course Overview

The course aims to provide the students with the underpinning knowledge that will enable them to think constructively about phenomena that relate to the quantum structure of matter. It is intended that the students will gain a broad appreciation of the hierarchy of interactions that give rise to the energy levels of atoms and the consequent structure of the associated spectroscopic transitions. In comparison to the previous years more emphasis will be put on the general, mathematical structure of quantum theory, tackling topics such as Hilbert spaces and time independent perturbation theory.





Course Details

Study Type Undergraduate Level 3
Session Second Sub Session Credit Points 15 credits (7.5 ECTS credits)
Campus None. Sustained Study No
Co-ordinators
  • Dr Ekkehard Ullner

Qualification Prerequisites

  • Either Programme Level 3 or Programme Level 4

What courses & programmes must have been taken before this course?

What other courses must be taken with this course?

None.

What courses cannot be taken with this course?

  • PX3509 Quantum Atomic and Molecular Physics (Studied)

Are there a limited number of places available?

No

Course Description

The content reflects the learning outcomes of the course:

General ideas:

  • Operators, eigenstates, eigenvalues.
  • The TDSE and the TISE.
  • The statistical interpretation of the wavefunction.
  • Superposition.
  • Expectation value of a dynamical variable.
  • Solutions of the TISESquare wells.
  • Barriers.
  • 1-D SHO.
  • Hydrogen atom.
  • Electron wave functions for the H atom.
  • The quantum numbers n, m.
  • Spherical harmonics.
  • Radial probability densities.
  • Spin states.
  • The intrinsic spin of the electron.
  • Perturbation theory.

Further Information & Notes

This course builds on PX 2510 to evaluate the eigenstates various systems including atomic systems. The mathematics of the uncertainty principle, expectation values, states, spin, probability and probability currents is formalized and time independent perturbation theory is explained.

Degree Programmes for which this Course is Prescribed

  • BSc Geology - Physics
  • BSc Physics
  • BSc Physics with Geology
  • BSc Physics with Modern Languages
  • BSc Physics with Philosophy
  • MA Natural Philosophy
  • Master of Physics with Complex Systems Modelling
  • Physics Joint
  • Physics Major

Contact Teaching Time

39 hours

This is the total time spent in lectures, tutorials and other class teaching.

Teaching Breakdown


Assessment

1st Attempt: 1 two-hour examination (75%) Continuous assessment (25%) - three class tests.
Resit: Same as above, with the continuous assessments carried forward. Only the marks obtained at the first attempt can count towards Honours classification.

Formative Assessment

By dialogue with the lecturer in class and by problem classes.

Feedback

Immediately with problem classes and within two weeks (usually one) for class tests.

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