Gravitational Slingshot Gravitational SlingshotConsider 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 speedpi= 110 m/s in the opposite direction. See the diagram below:Vs,iUsing an x-axis with positive pointing to the right, solve for the final x-component of the velocity of the satellite after the collision.

Given the collision is elastic. And in an elastic collision, the velocity of the approach is equal…

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.