At a particular moment, a spacecraft of mass 15000 kg is at location (-6.4 x 107,0,0) m relative to an origin at the center of the Earth. At this instant the momentum of the spacecraft is (0,4.9 × 107,0) kg-m/s, and the force on the spacecraft by the Earth is (1472,0,0) N. Part 1 Assuming the force on the spacecraft by the Earth is approximately constant over a 1 hour interval, what will the momentum of the spacecraft be in 1 hour? (Remember to convert Ar to seconds.) P₁ = (i > kg-m/s
At a particular moment, a spacecraft of mass 15000 kg is at location (-6.4 x 107,0,0) m relative to an origin at the center of the Earth. At this instant the momentum of the spacecraft is (0,4.9 × 107,0) kg-m/s, and the force on the spacecraft by the Earth is (1472,0,0) N. Part 1 Assuming the force on the spacecraft by the Earth is approximately constant over a 1 hour interval, what will the momentum of the spacecraft be in 1 hour? (Remember to convert Ar to seconds.) P₁ = (i > kg-m/s
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Transcribed Image Text:At a particular moment, a spacecraft of mass 15000 kg is at location (-6,4 x 107,0,0) m relative to an origin at the center of the Earth.
At this instant the momentum of the spacecraft is (0, 4.9 x 107,0) kg m/s, and the force on the spacecraft by the Earth is (1472, 0, 0)
N.
Part 1
Assuming the force on the spacecraft by the Earth is approximately constant over a 1 hour interval, what will the momentum of
the spacecraft be in 1 hour? (Remember to convert At to seconds.)
P₁ = (i
i
"
i
> kg-m/s
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