Clayton First semester 2008 (Day)
This unit gives students theoretical background and practical experience in modern astronomical instruments. Telescope optics, spectroscopy, UBV photometry, CCD imaging, image processing, astronomy relevant to sunspots, satellites, clusters of stars, variable stars and targets of opportunity (different each year), all in the context of observational astronomy. Laboratory work and an observational project (including night-time sessions) comprise a substantial component of this unit.
On completion of this unit, students will be able to describe the processes responsible for spectral features of stars/ galaxies / quasars and interpret spectra using that theoretical basis; outline the advantages and disadvantages of different telescope systems for particular research targets; describe characteristics and features of the astronomical objects available for observation and analysis during the teaching period; operate equatorially-mounted manual and robotic telescopes; describe and use methods to locate astronomical objects in the sky using appropriate coordinate systems; capture images of objects using CCD detectors; describe and apply techniques to process images, including using flat-field correction; atmospheric extinction correction, colour recombination, resolution enhancement; describe the historical significance of developments in optics, spectroscopy, photometry and their impact on contemporary instruments and techniques; write scientific reports on their experiments; complete a substantial project as a member of a team; write and peer-review project proposals and reports.
Exam: 40%
Laboratory: 20%
Project: 35%
Assignments: 5%
Students must achieve a pass mark in the laboratory/project component to achieve an overall pass grade.
Two 1-hour lectures per week, 4 hours laboratory or project sessions per week on average (including night-time observing)