Creative Commons License Copyright © Michael Richmond. This work is licensed under a Creative Commons License.

The Visible Planets

Humans in ancient cultures identified five planets in the sky: Mercury, Venus, Mars, Jupiter and Saturn. Together with the Moon and the Sun, these objects alone moved relative to the stars. Tonight, you can see ALL FIVE of these planets at once, with your own eyes.


Place six planets in their orbits

You will be given a sheet of paper, which has diagrams of the solar system on each side. Both diagrams show the Sun at the center, and the Earth in its orbit around the Sun. In one diagram, the Earth's orbit fills the page: this will show the inner solar system. In the other, the Earth's orbit is a tiny fraction of the page: this will show the outer solar system. (The diagrams below are just illustrations -- don't use them for your work!)

The diagrams aren't very good yet ... but they will be when you finish with them. You will show the orbit of each of the five visible planets, AND place a symbol showing the location of each planet in its orbit tonight.

  1. Go outside, face west, and identify the five planets visible in the sky.
  2. Measure the angular distance between each planet and the Sun. (the instructor will tell you how far below the horizon the Sun is)
  3. Look through the telescopes on the pad at Mercury and Venus.
  4. Draw a small picture of Mercury, and a small picture of Venus. You will use the phase of each planet to determine its location in its orbit.
  5. Go back inside the house.
  6. On the Inner Solar System diagram:
  7. On the Outer Solar System diagram


The Rotation Period of Jupiter

for extra credit, between lab meetings

We will attach a video camera to the 10-inch telescope tonight and take pictures of the planet Jupiter. We should acquire images over a span of about two hours. I will save some of the best images and place copies on the course web page. Your job:

  1. Locate the images, and look at them carefully
  2. Try to identify a feature(s) in the atmosphere of Jupiter, visible in pictures taken both early and late during the class period
  3. Measure the motion of the features during the class period
  4. Express the motion in terms of degrees of circumference
  5. Calculate the rotation period of Jupiter. Show all work.
  6. Look up the rotation period of Jupiter. What is it?
  7. Compare your answer to the actual rotation period. How close were you, in percentage terms?


Last modified by MWR 4/24/2002

Creative Commons License Copyright © Michael Richmond. This work is licensed under a Creative Commons License.