View Specification Document
View Course HandbookRelativistic Quantum Fields (December Exam) PHYS5054
- Academic Session: 2023-24
- School: School of Physics and Astronomy
- Credits: 10
- Level: Level 5 (SCQF level 11)
- Typically Offered: Semester 1
- Available to Visiting Students: Yes
Short Description
To provide students with an opportunity to develop knowledge and understanding of the key principles and applications of Relativistic Quantum Fields, and their relevance to current developments in physics, at a level appropriate for a professional physicist.
Timetable
18 lectures, typically 2 lectures per week
Requirements of Entry
This course is normally only open to students who meet the requirements for entry, or progression, for a degree programme which includes Relativistic Quantum Fields as an elective or compulsory course and will not be present for the April/May exam diet.
Relativistic Quantum Fields is a compulsory course for the following degree programmes:
MSci Theoretical Physics
Relativistic Quantum Fields is an elective course for the following degree programmes:
MSci Physics, MSci Combined Physics, MSci Physics with Astrophysics, MSci Chemical Physics, MSci Chemical Physics with Work Placement
Relativistic Quantum Fields is a prohibited course for the following degree programmes:
BSc (Honours) Physics, BSc (Honours) Combined Physics, BSc (Honours) Chemical Physics, BSc (Honours) Physics with Astrophysics, BSc (Designated) Physics, BSc (Designated) Combined Physics, BSc (Designated) Physics with Astrophysics
Also, students must normally have attended previously the following pre-requisite courses:
Atomic Systems
Excluded Courses
None
Assessment
Examination (100%)
Main Assessment In: December
Course Aims
To provide students with an opportunity to develop knowledge and understanding of the key principles and applications of Relativistic Quantum Fields, and their relevance to current developments in physics, at a level appropriate for a professional physicist.
Intended Learning Outcomes of Course
By the end of the course, students will be able to demonstrate a knowledge and broad understanding of Relativistic Quantum Fields, and show a critical awareness of the significance and importance of the topics, methods and techniques discussed in the lectures and their relationship to concepts presented in other courses. They should be able to describe and analyse quantitatively processes, relationships and techniques relevant to the topics included in the course outline, applying these ideas and techniques to analyse critically and solve advanced or complex problems which may include unseen elements. They should be able to write down and, where appropriate, either prove or explain the underlying basis of physical laws relevant to the course topics, and discuss their applications.
Minimum Requirement for Award of Credits
Not applicable