PHY-20026 - Statistical Mechanics and Solid State Physics

Coordinator: John K Taylor Tel: +44 1782 7 33494

Lecture Time: See Timetable...

Level: Level 5

Credits: 15

Study Hours: 150

School Office: 01782 734921

Programme/Approved Electives for 2020/21

None

Available as a Free Standing Elective

Co-requisites

None

Prerequisites

Successful completion of FHEQ Level 4 Physics or Astrophysics
OR
Registration on FHEQ Level 5 of a degree programme in physics or astrophysics

Barred Combinations

None

Description for 2020/21

This module explores the theory and applications of the key topics in statistical mechanics and solid-state physics. There is also a laboratory component aimed at enhancing experimental and communication skills.

Aims

This module aims to introduce the students to statistical mechanics and to solid-state physics and to give them the skills to solve the more straight forward problems and applications in these areas. It also contains an element of laboratory work aimed at enhancing experimental and team-working skills.

Talis Aspire Reading List
Any reading lists will be provided by the start of the course.
http://lists.lib.keele.ac.uk/modules/phy-20026/lists

Intended Learning Outcomes

describe and explain the importance of lattice vibrations in determining the properties of solids; will be achieved by assessments: 1,2,3
outline the importance of crystal structure, and how to determine it; will be achieved by assessments: 1,2,3
explain the classical and quantum models for free electrons in solids; will be achieved by assessments: 1,2,3
explain the origin of energy bands in solids; will be achieved by assessments: 1,2,3
explain the origin of the magnetic properties of solids; will be achieved by assessments: 1,2,3
describe the statistical treatment of large ensembles of particles; will be achieved by assessments: 1,2,3
apply the Maxwell-Boltzmann, Fermi-Dirac and Bose-Einstein distributions to the properties of solids; will be achieved by assessments: 1,2,3
use appropriate mathematical techniques to solve physical problems. will be achieved by assessments: 2,3,4

Study hours

30 hours of lectures on Solid State Physics, Statistical Mechanics and Mathematics
14 hours problem classes on above topics
10 hours on solving problem sheets
2 hour unseen examination on Solid State Physics and Statistical Mechanics
1 hour unseen class test on Mathematics
93 hours examination revision/preparation and private study

School Rules

None

Description of Module Assessment

1: Unseen Exam weighted 60%
2 hour unseen examination
Section A: 10 short questions. Students to attempt all questions = contributes 40% of the exam paper; Section B: A choice of 2 questions out of 4 = contributes 60% of the exam paper.

2: Tutorial weighted 10%
Engagement with, and completion of, the assigned problems in problem classes
Problem classes covering Statistical Mechanics, Solid State Physics and Mathematics.

3: Exercise weighted 10%
Four problem sheets
4 problem sheets with questions on Statistical Mechanics and Solid State Physics.

4: Class Test weighted 20%
1-hour class test on Mathematics
1-hour class test on Mathematical material.

PHY-20026 - Module Specification School of Chemical and Physical Sciences Faculty of Natural Sciences

PHY-20026 - Module Specification
School of Chemical and Physical Sciences
Faculty of Natural Sciences