AS5522
Stellar Physics
2023-2024
15
7
SCQF level 11
2
Academic year(s): 2023-2024
SCOTCAT credits : 15
ECTS credits : 7
Level : SCQF level 11
Semester: 2
Availability restrictions: Available only to students on MSc Astrophysics.
This module develops the physics of stellar interiors and atmospheres from the basic equations of stellar structure and radiative transfer concepts developed in Nebulae and Stars I. Topics include: the equation of state that provides pressure support at the high temperatures and densities found in normal and white-dwarf stars; the interaction of radiation with matter, both in terms of radiation-pressure support in super-massive stars and in terms of the role of opacity in controlling the flow of energy from the stellar interior to the surface; the equation of radiative transfer and the effects of local temperatures, pressures and velocity fields on the continuum and line absorption profiles in the emergent spectrum. Computer-aided tutorial exercises illustrate the computational schemes that represent one of the triumphs of late twentieth-century physics, in their ability to predict the observable properties of a star from its radius and luminosity, which in turn are determined by its mass, age and chemical composition.
Pre-requisite(s): Students must be registered for MSc Astrophysics.. Before taking this module you must pass AS4011 or equivalent from first degree.
Co-requisite(s): You must also take AS5500
Weekly contact: 3 lectures occasionally replaced by whole-group tutorials.
Scheduled learning hours: 33
Guided independent study hours: 117
As used by St Andrews: 2-hour Written Examination = 75%, Coursework = 25%
As defined by QAA
Written examinations : 75%
Practical examinations : 0%
Coursework: 25%
Re-assessment: Oral re-assessment = 100%, capped at grade 7
Module coordinator: Dr J V Hernandez Santisteban
Aims & Objectives
Develop a deeper understanding of all physical processes that are important in the atmospheres and interiors of stars to explain their observed spectra, their internal structure and their evolution.
Learning Outcomes
By the end of the module the students will be able to:
Synopsis
This module runs in parallel with AS4012. All lectures and tutorials are shared with the AS4012 students, and the same assessed computational homework projects are offered.
The course is organised in two parts: stellar atmospheres (11 lectures) and stellar interiors (10 lectures). There are ten weekly workshop sessions taking place in the lecture room with exam-like questions, which are distributed one week prior to the workshop sessions. AS5522 students are required to carry out both of the assessed computational homework exercises to self-compute simple models for the emergent spectrum and the inner structure of solar-like stars using Python. These count count 12.5% each (totalling 25%) towards the module grade.
Additional information on workshops and continuous assessment.
Please note that the definitive arrangements for continuous assessment will be communicated within the module. This section is intended to give an indication of the likely breakdown and timing of the continuous assessment.
The ten workshops develop exam-style problem-solving skills. The questions will be distributed about one week prior to the tutorial sessions. Students will be subdivided into small groups in the workshops to discuss and compare their solutions. Complete solutions of all exam-style questions will be made available to the students afterwards on Moodle.
The deadlines for submitting the assessed computational homework are likely to be towards the end of weeks 5 and 11.
Recommended Books
Please view University online record:
http://resourcelists.st-andrews.ac.uk/modules/as4012.html
General Information
Please also read the general information in the School's Astrophysics MSc handbook.