Orbital motion of planets
Earth and Space

Resources for teaching exoplanet physics

Practical Activity for 11-14 IOP RESOURCES

Use the light grapher interactive below to model how astronomers detect exoplanets using the transit method.

Apparatus and materials

  • Lamp (one with an opal globe light bulb is ideal)
  • Polystyrene balls of assorted sizes
  • Bamboo barbecue skewers (with a length of approximately 30 cm)
  • Webcam
  • Light Grapher software (below)

Each student will require a photocopy of the instructions and worksheet (pages 4 and 5 respectively).

Health & safety and technical notes

Ask students to be careful when building models as skewers may be sharp. Warn students not to stare directly into the lamp. This activity uses a piece of software called Light Grapher which detects input from a webcam to graphically display the brightness of a model star.

The practical activity

  1. Students should set up a lamp to represent their star and attach a ball to a stick or skewer to represent their exoplanet.
  2. They should then move their ball on skewer/stick across the front of their lamp and produce a light-curve. You will need to explain how to use the Light Grapher software.
  3. Once students have produced a single light-curve, they should predict how the shape of the light curve will change for a bigger and faster exoplanet. Encourage them to think about which variables they need to keep constant (e.g. radius of orbit) in order to test their predictions.

More information about how to use the light grapher to teach exoplanets can be found in the downloads at the bottom of the page. 

Light grapher

for seconds

Select target size


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