Registry
Module Specifications
Archived Version 2012 - 2013
| |||||||||||||||||||||||||||||||||||||||||
|
Description Module Aims: To allow students to learn how to analyse astronomical data with particular relevance to aspects important for the field trip in the next semester. To develop advanced measurement skills and good laboratory practice by doing laboratories relevant to common astrophysical problems. | |||||||||||||||||||||||||||||||||||||||||
|
Learning Outcomes 1. Discuss the physical principles of observations with telescopes, astrophotography, spectroscopy and interferometry in astrophysics. Identify and discuss astrophysical detectors (in particular CCDs) and the related noise reduction techniques. Solve related problems. 2. Reduce and analyse astronomical spectroscopic data using a professional astronomical data reduction package. 3. Carry out in the lab experimental measurements using various measurements devices and applying the suitable error analysis. 4. Identify the physical principles involved in the laboratory experiments and discuss them in the context of astrophysical situations. 5. Apply safe laboratory practise. 6. Write a report on a scientific experiment. | |||||||||||||||||||||||||||||||||||||||||
All module information is indicative and subject to change. For further information,students are advised to refer to the University's Marks and Standards and Programme Specific Regulations at: http://www.dcu.ie/registry/examinations/index.shtml |
|||||||||||||||||||||||||||||||||||||||||
|
Indicative Content and
Learning Activities Indicative SyllabusIntroduction to LINUX computing system and brief introduction to computing standards in astronomy. Introduction to various instrumentation aspects, e.g. CCD detectors, signal and noise, statistics. Concepts and principles of basic experimental techniques to include photography; astro-photography basics as examples. Atmospheric conditions. Focal length, aperture, optical quality, resolution. Telescopes, image formation, antenna beams, resolution enhancements (speckled interferometry, adaptive optics). Multiple telescope interferometry. Point like and extended sources. Reduction techniques for optical spectroscopical data. | |||||||||||||||||||||||||||||||||||||||||
| |||||||||||||||||||||||||||||||||||||||||
Indicative Reading List
| |||||||||||||||||||||||||||||||||||||||||
|
Other Resources | |||||||||||||||||||||||||||||||||||||||||
| Programme or List of Programmes | |||||||||||||||||||||||||||||||||||||||||
| PHA | BSc in Physics with Astronomy |
| SHSA | Study Abroad (Science & Health) |
- See the module specification for PS310 in 2003 - 2004
- See the module specification for PS310 in 2004 - 2005
- See the module specification for PS310 in 2005 - 2006
- See the module specification for PS310 in 2006 - 2007
- See the module specification for PS310 in 2007 - 2008
- See the module specification for PS310 in 2008 - 2009
- See the module specification for PS310 in 2009 - 2010
- See the module specification for PS310 in 2010 - 2011
- See the module specification for PS310 in 2011 - 2012
- See the module specification for PS310 in 2012 - 2013
- See the module specification for PS310 in 2013 - 2014
- See the module specification for PS310 in 2014 - 2015
- See the module specification for PS310 in 2015 - 2016
- See the module specification for PS310 in 2016 - 2017
- See the module specification for PS310 in 2017 - 2018
- See the module specification for PS310 in 2018 - 2019
- See the module specification for PS310 in 2019 - 2020
- See the module specification for PS310 in 2020 - 2021
- See the module specification for PS310 in 2021 - 2022
- See the module specification for PS310 in 2022 - 2023
- See the module specification for PS310 in 2023 - 2024
- See the module specification for the current year