AS4010 Extragalactic Astronomy

2024 to 2025 Semester 1

Curricular information may be subject to change

Further information on which modules are specific to your programme.

Key module information

SCOTCAT credits

The Scottish Credit Accumulation and Transfer (SCOTCAT) system allows credits gained in Scotland to be transferred between institutions. The number of credits associated with a module gives an indication of the amount of learning effort required by the learner. European Credit Transfer System (ECTS) credits are half the value of SCOTCAT credits.

SCQF level

SCQF level 10

The Scottish Credit and Qualifications Framework (SCQF) provides an indication of the complexity of award qualifications and associated learning and operates on an ascending numeric scale from Levels 1-12 with SCQF Level 10 equating to a Scottish undergraduate Honours degree.

Availability restrictions

Not automatically available to General Degree students

Module Staff

TBC

This information is given as indicative. Staff involved in a module may change at short notice depending on availability and circumstances.

Module description

This module introduces the basic elements of extragalactic astronomy. This includes the morphological, structural and spectral properties of elliptical, spiral, quiescent and star-forming galaxies. We study how galaxy populations change from the distant galaxies in the early Universe into those observed in our local neighbourhood, including the coincident growth of super massive black holes at the centres of massive galaxies. Galaxy formation theory is introduced in relation to the growth of structure in a cold-dark matter Universe, and galaxy evolution in regions of high and low density is investigated. The module includes a look at modern instrumentation used in extragalactic astrophysics. Specialist lecturers from within the galaxy evolution research group will provide a direct link between material learnt in lectures and research currently being undertaken at the University of St Andrews. Students will engage in an assessed mini research project throughout the semester (computer based, in Python).

Relationship to other modules

Pre-requisites

BEFORE TAKING THIS MODULE YOU MUST ( PASS AS2001 OR PASS AS2101 ) AND PASS PH2011 AND PASS PH2012 AND PASS MT2501 AND PASS MT2503

Anti-requisites

YOU CANNOT TAKE THIS MODULE IF YOU TAKE AS4022

Assessment pattern

2-hour Written Examination = 80%, continual assessment (Computer Based Assignment) = 20%

Re-assessment

Oral Re-assessment, capped at grade 7

Learning and teaching methods and delivery

Weekly contact

3 lectures or tutorials

Scheduled learning hours

The number of compulsory student:staff contact hours over the period of the module.

Guided independent study hours

120

The number of hours that students are expected to invest in independent study over the period of the module.

Additional information from school

AS4010 - Extragalactic Astronomy

Aims & Objectives

To be able to appreciate the various aspects of galaxy formation and evolution, and apply them to outcomes of modern extragalactic research activities.

Learning Outcomes

be able to obtain galaxy properties from observational evidence
be able to describe the differences in galaxy populations and properties over the course of the Universe in terms of galaxy evolution
be able to describe the formation of galaxies in terms of observational cosmology
be able to apply basic physical principles to galaxy evolution and formation processes
be able to apply material covered in the lectures to current research activities in extragalactic astrophysics

Synopsis

Galaxy Observations: Spectral Energy Distributions and Star Formation Histories

Galaxy Observations: Scaling Laws and Dynamics

Observational Cosmology

Galaxy Formation and Evolution

Supermassive Black Holes and Active Galactic Nuclei

Additional information on continuous assessment etc.

Coursework involves a computational exercise based in Python (20%).

Accreditation Matters

This module may not contain material that is part of the IOP 'Core of Physics', but does contribute to the wider and deeper learning expected in an accredited degree programme. The skills developed in this module, and others, contribute towards the requirements of the IOP 'Graduate Skill Base'.

Recommended Books

Please view University online record:

http://resourcelists.st-andrews.ac.uk/modules/as4010.html

General Information

Please also read the general information in the School's honours handbook that is available via https://www.st-andrews.ac.uk/physics-astronomy/students/ug/timetables-handbooks/.