Astronomy 110 Laboratory: Course Outline

Fall 2005 Astronomy 110L Wed. 7:00 - 10:00 pm


One evening meeting per week, involving either field trips for astronomical viewing or indoor laboratory work. There will be an optional daytime meeting to view the Sun, and one or more nighttime trips to a dark site to view the Milky Way and faint objects. Enrollment is limited to 25 students per section.


The syllabus of this course must be adapted to circumstances. At any given time only some planets and other objects are visible. Moreover, observing may be impossible during bad weather; when it's cloudy, indoor exercises will be substituted for astronomical viewing. From time to time, additional viewing sessions may be scheduled to take advantage of unique astronomical events such as eclipses, meteor showers, occultations, etc. Here are some exercises which may be included in Fall 2005.

  1. The Sky
    1. Orientation: compass points, rising and setting of astronomical objects [outdoor].
    2. Constellations: recognizing landmarks in the sky [outdoor].
    3. Phases of the Moon: relation between position and phase of the Moon [outdoor].

  2. Telescopes
    1. A Simple Telescope: study formation of inverted images, predict and measure magnification [indoor].
    2. Using Astronomical Telescopes: finding objects, tracking, choice of magnification [outdoor].
    3. Advantages of Aperture: see how brightness and detail depend on the diameter of a telescope [outdoor].

  3. Observations
    1. Viewing the Moon: our telescopes can show an enormous amount of detail on the surface of the Moon [outdoor].
    2. Viewing Venus and Mars: these two bright planets, both visible this Fall, appear very different in a telescope.
    3. Viewing the Sun: filters which reject 99.999% of the incoming light allow us to see sunspots on the Sun.
    4. A Lunar Eclipse: early on the morning of Monday, October 17, the Moon will dip into the Earth's shadow [outdoor].
    5. Lunar Occultations: watching the Moon cover a star yields information on that star's angular diameter [outdoor].
    6. Deep Sky Objects: study appearance of double stars, star clusters, nebulae, and galaxies [outdoor].

  4. Dynamics
    1. Planetary Motions: observations of Mars and Venus reveal retrograde behavior due to our own motion about the Sun [outdoor].
    2. Shape of the Moon's Orbit: the 13% change in the Moon's apparent diameter from perigee to apogee provides a test of Kepler's first law [outdoor].
    3. Falling Bodies: recreate Galileo's key experiments and establish link to orbital motion [indoor].

  5. Distances
    1. Parallax in the Lab: use cross-staff to estimate distances by triangulation [indoor].
    2. Distance to the Moon: coordinated observation from two points yields an estimate of the Moon's distance [outdoor].
    3. Inverse-Square Law: verify the relationship between distance and apparent brightness [indoor].
    4. Light Curves of Variable Stars: naked-eye observations of Delta Cephei can yield its period, and hence its luminosity [outdoor].

  6. Spectra
    1. Spectra in the Lab: each element has a unique `fingerprint' of spectral lines [indoor].
    2. Solar Spectrum: observe absorption lines in Sun's spectrum [outdoor].
    3. Viewing Stellar Spectra: the spectra of stars reveal stellar temperatures and compositions [outdoor].

It's not possible to give a detailed week-by-week schedule for this course. Instead, the idea is to have a range of activities prepared for each meeting; thus we can take advantage of clear weather, and work indoors when the weather is bad. Some topics can be completed in a single night, but others entail observations spread over longer periods. For example, constellations (1b) will be periodically revisited over the semester; this allows us to become familiar with both Summer and Fall constellations. Repeated observations are also necessary to follow planetary motion (4a), study the shape of the Moon's orbit (4b), and measure the light curves of variable stars (5d).

Joshua E. Barnes (
Last modified: August 23, 2005
Valid HTML 4.01!