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Extra Credit Project: A Solar Sail

This project requires a few bits of basic dynamics which you may not have seen in previous courses, such as the relationship between forces, momentum and impulse. Please come talk to me in person if you have questions.

This project must be done by individuals.

Joe Aerospace decides to make a "solar sail" for his private spaceship. The "sail" uses radiation pressure from the Sun to move a ship, in the same way that a regular sail uses pressure from the wind. Joe uses ordinary aluminum foil (Reynolds Wrap or the equivalent) for his sail.

  1. What is the mass per square meter of aluminum foil?

    The Sun radiates a great deal of energy per second: to a decent approximation, its power is one solar luminosity = 3.86 x 1026 Watts. Assume that all of this energy is emitted as photons of wavelengths 550 nanometers -- greenish-yellow light. These photons each have

    
    
          energy      E = 3.61 x 10^(-19) Joules
    
          momentum    p = 1.21 x 10^(-27) kg*m/s
    
    

  2. How many photons of this sort does the Sun emit each second?

    Joe's sail is a square, 100 meters on a side, located at the Earth's distance from the Sun. He orients it so that photons strike it face-on and bounce back towards the Sun.

  3. How many photons strike Joe's sail each second?

  4. If the photons are reflected perfectly back towards the Sun, how much momentum does a single photon transfer to the sail?

  5. How much momentum is transferred to the sail each second?

  6. Use impulse to calculate the force exerted on the sail by the photons.

  7. Calculate the force of gravity due to the Sun on the sail.

  8. What is the net acceleration of Joe's sail?


This page maintained by Michael Richmond. Last modified Nov 1, 2004.

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