Module Details |
The information contained in this module specification was correct at the time of publication but may be subject to change, either during the session because of unforeseen circumstances, or following review of the module at the end of the session. Queries about the module should be directed to the member of staff with responsibility for the module. |
Title | STELLAR POPULATIONS | ||
Code | PHYS483 | ||
Coordinator |
Dr M Salaris Physics Maurizio.Salaris@liverpool.ac.uk |
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Year | CATS Level | Semester | CATS Value |
Session 2020-21 | Level 7 FHEQ | First Semester | 15 |
Aims |
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To build upon the students' knowledge of stellar evolution and describe techniques currently employed to investigate the evolution of stellar populations in the universe. To provide the physical background underlying these techniques, and study their application to observations of Galactic and extra galactic stellar systems. |
Learning Outcomes |
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(LO1) An understanding of the evolution with age and chemical composition of the Colour-Magnitude-Diagrams of resolved stellar populations. |
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(LO2) Methods to estimate distances, ages and initial chemical compostions of resolved stellar populations. |
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(LO3) An understanding of the evolution with age and chemical composition of the integrated photometric properties of stellar populations. |
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(LO4) An understanding of the evolution of integrated spectral features of stellar populations with age and chemical composition. |
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(LO5) Knowledge of age and chemical composition diagnostics from integrated photometry and spectroscopy of stellar populations. |
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(S1) Communication (oral, written and visual) - Presentation skills – oral |
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(S2) Information skills - Critical reading |
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(S3) Research skills - All Information skills |
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(S4) Communication (oral, written and visual) - Academic writing (inc. referencing skills) |
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(S5) Improving own learning/performance - Personal action planning |
Syllabus |
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From stellar evolution models to observations. Stellar spectra, bolometric corrections, colour magnitude diagrams. Concept of simple and composite resolved stellar populations, theoretical isochrones, age/distance diagnostics for simple stellar populations, star formation history determinations for composite stellar populations.Unresolved stellar populations, population synthesis methods, theoretical predictions of integrated spectra and magnitudes of unresolved stellar populations. Age-metallicity degeneracy. Age/metallicity diagnostics based on integrated spectra and integrated magnitudes, stellar mass-to-light ratio estimates. |
Teaching and Learning Strategies |
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pre-recorded lectures, zoom/teams chats at the end of each block of lectures (CANVAS discussion board for further student' questions) Teaching Method 1 - Lecture Teaching Method 2 - Workshop |
Teaching Schedule |
Lectures | Seminars | Tutorials | Lab Practicals | Fieldwork Placement | Other | TOTAL | |
Study Hours |
12 |
6 |
18 | ||||
Timetable (if known) | |||||||
Private Study | 132 | ||||||
TOTAL HOURS | 150 |
Assessment |
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EXAM | Duration | Timing (Semester) |
% of final mark |
Resit/resubmission opportunity |
Penalty for late submission |
Notes |
CONTINUOUS | Duration | Timing (Semester) |
% of final mark |
Resit/resubmission opportunity |
Penalty for late submission |
Notes |
Assessment 1 There is a resit opportunity. Standard UoL penalty applies for late submission. This is not an anonymous assessment. Assessment Schedule (When) :week 12 | 10 minute oral prese | 40 | ||||
Assessment 2 There is a resit opportunity. Standard UoL penalty applies for late submission. This is not an anonymous assessment. Assessment Schedule (When) :week 5 | Essay 1300-1600 word | 30 | ||||
Assessment 3 There is a resit opportunity. Standard UoL penalty applies for late submission. This is not an anonymous assessment. Assessment Schedule (When) :week 9 | Essay 1300-1600 word | 30 |
Recommended Texts |
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Reading lists are managed at readinglists.liverpool.ac.uk. Click here to access the reading lists for this module. |