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9: Motion in Fields 9.4 Orbital Motion.

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Presentation on theme: "9: Motion in Fields 9.4 Orbital Motion."— Presentation transcript:

1 9: Motion in Fields 9.4 Orbital Motion

2 Orbital Motion Kepler’s Third Law: This law relates the time period ‘T’ of a planet’s orbit (its ‘year’) to the distance ‘r’ from the star it is attracted to, e.g. for Earth orbiting the Sun. We know that the force between the two bodies is… F = GMm r2 We also know that the centripetal force acting on a body in circular motion is given by… F = mω2r = mv2 r

3 So equating gives... However, the angular speed ω is the angle (in radians) per unit time. So in one orbit, the angle is 2π and the time is the time period T. ω = 2π / T mω2r = GMm r2 Rearranging… ω2 = GM r3 4π2 = GM T r3 So… T2 = 4π2 r GM

4 Clearly the closer the planet to the Star, the shorter the time period.
(Kepler discovered his laws using observational data taken by the astronomer Tycho Brahe. A century later Newton derived Keplers laws from his own laws of motion.) T2 = 4π2 r GM Thus for any planet orbiting a star in a circular orbit, T2 is proportional to r3. Also the ratio T2/r3 is constant. This is known as Kepler’s third law.

5 Kinetic Energy of a Satellite
Again by equating the two equations for force acting on an orbiting body, we can now derive a formula for its KE. This time we write the centripetal force formula using v instead of ω: Rearrange and multiply both sides by 1/2 … So, for a satellite… mv2 = GMm r r2 ½ mv2 = GMm 2r KE = GMm 2r

6 Potential Energy of a Satellite
We already know that the potential energy must be given by… Total Energy of a Satellite Total Energy = KE + PE Ep = - GMm r Total Energy = GMm GMm 2r r Total Energy = - GMm 2r

7 Energy KE Distance r Total E PE

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