Question
A spacecraft performs a gravitational slingshot around Jupiter, approaching it at a speed of 30,000 m/s and leaving with a speed of 60,000 m/s. Determine the change in the spacecraft's velocity.
A spacecraft performs a gravitational slingshot around Jupiter, approaching it at a speed of 30,000 m/s and leaving with a speed of 60,000 m/s. Determine the change in the spacecraft's velocity.
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Koala Tutor
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To determine the change in the spacecraft's velocity, we need to calculate the difference between the final velocity and the initial velocity.
Change in velocity = Final velocity - Initial velocity
Change in velocity = 60,000 m/s - 30,000 m/s = 30,000 m/s
Therefore, the change in the spacecraft's velocity is 30,000 m/s.
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