Rowan Introduction to Astronomy
Lab 6 / Plotting the Orbit of the Moon
After completing this lab, the student will be able to
use a series
of lunar photographs to make a scale drawing of the Moon’s orbit.
be able to confirm the elliptical nature of the Moon’s orbit by determining the major axis, minor axis, and eccentricity of t
compass (get cheap ones in dollar stores, Wal-Mart)
The Moon’s Orbit
As applied to the Moon’s orbit, Kepler’s first law would state that the Moon’s orbit is an ellipse with the Earth at one focu
s. If the
Moon’s orbit is an ellipse, its distance from
the Earth should change during one complete orbit. This means the Moon should appear
(closest approach to Earth) than it does at
(farthest from Earth). Figure 1 shows a series of lunar photographs.
These were obtained as the Moon passed several different positions in its orbit. It is possible to use these photographs to determine a
few orbital properties of the Moon.
Fill in Table columns in this order: 6, 7, 3, 4, 5 and before plotting your data points.
1. Measure the diameter,
of each lunar image shown in millimeters. Be careful not to simply measure the illuminated portion. Make
all measurements vertically through the center of each image.
Estimate each value to
millimeter (0.5 mm).
measurements in column 6 in Table 1. (Note: These values should range between 40 mm and 60 mm.)
2. From each diameter measurement, the relative distance to the Moon can be determined. This distance will be scaled down to fit on
a piece of graph paper. Calculate the scale distance,
(in mm) to the Moon using the relation
is the diameter
recorded in column 6 of Table 1, and 4000 is a scale factor. Record your values of
to its nearest tenth of a millimeter, in the last
column of Table 1 (column 7).
Round to 1 decimal place.
3. Calculate the average scale distance,
to the Moon and record your answer in the space provided at the bottom of column 7.