The goal of this course is to learn how to use the scientific method to understand how the Universe works. We will learn the techniques of observing, data reduction and error analysis. We will discuss how to collect data with a CCD camera, how to use computers to calibrate and measure the images, and how to use statistics to report errors and confidence levels of your results. You will learn all this by actively carrying out small observing projects. But, the primary objective of this course is to learn how science is used to understand how the world works.
Office: 220 Barnes Science Center
- Textbook: A Practical Guide to Observational Astronomy by M. Shane Burns.
- A USB drive (≥ 8 GB)
- Observing notebook (three-ring binder or lab notebook)
The best way to learn how to do science is to do science. To that end, you will do four observing projects this block. Your project grade for the first two projects will be based on your laboratory notebook. You will write a scientific paper for the last two projects. You will each hand-in your own lab notebook, but the research papers will be group efforts. Each observing group will consist of no more than three people. More information about the format and requirements for the research papers is on the Resources Page.
You will also do a few homework assignments during the block. The assignments sometimes require you to do some data analysis with a computer.
We will usually meet daily from 1:30-3:30. We will use this regular meeting time to go over new material, or continue to work on projects. Sometimes these classes will evolve into computer tutorials or data reduction sessions. However, most of your time will be spent at the observatory at night. You'll probably have to switch your sleeping schedule a little to survive the course. (I know I will.) We're at the mercy of the weather, so we'll observe whenever we have the opportunity. We will sometimes meet as a group, but since the more complicated projects will take almost the entire night we'll often work in shifts. I'll leave it to you as a group to organize the observing shifts when appropriate. You can count on spending a 3-5 hours at the observatory at least three nights each week. Try to free up your evening schedule as much as possible for the block.
Remote Observing with NURO
We will spend third week of the block using the National Undergraduate Research Observatory telescope. This telescope is currently a 1-meter PlaneWave Instruments telescope that is part of the Navy Precision Optical Interferometer. We will use the telescope in a remote or robotic mode.