Gravitational Slingshot Consider an enormous satellite of mass 0.4 MẸ undergoing the gravitational slingshot effect from a planet of mass 5 ME, where MẸ is the mass of Earth. The satellite begins with a speed 1 = 44 m/s and circles around a the planet that is moving with speed v = 110 m/s in the opposite direction. See the diagram below: Vs,i Using an x-axis with positive pointing to the right, solve for the final x-component of the velocity of the satellite after the collision.
Gravitational Slingshot Consider an enormous satellite of mass 0.4 MẸ undergoing the gravitational slingshot effect from a planet of mass 5 ME, where MẸ is the mass of Earth. The satellite begins with a speed 1 = 44 m/s and circles around a the planet that is moving with speed v = 110 m/s in the opposite direction. See the diagram below: Vs,i Using an x-axis with positive pointing to the right, solve for the final x-component of the velocity of the satellite after the collision.
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Gravitational Slingshot
Transcribed Image Text:Gravitational Slingshot
Consider an enormous satellite of mass 0.4 M- undergoing the gravitational slingshot effect from a planet of mass 5 MF, where Mp is the mass of Earth.
The satellite begins with a speed v = 44 m/s and circles around a the planet that is moving with speed
pi
= 110 m/s in the opposite direction. See the diagram below:
Vs,i
Using an x-axis with positive pointing to the right, solve for the final x-component of the velocity of the satellite after the collision.
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