Calculate the magnitude of the linear momentum p0 of a 43.7 kg object on the Equator, as measured from the center of Earth. The radius R of Earth is 6371 km. p0 = __ kg * m/s Define the time at which the previous result was calculated as t0. What is the magnitude of the net change Δ?1 in the object's momentum in the 6 h following t0? Δp1 = __ kg * m/s Now, calculate the magnitude of the total change Δp2 in the object's momentum 12 h after t0. Δp2 = __ kg * m/s
Calculate the magnitude of the linear momentum p0 of a 43.7 kg object on the Equator, as measured from the center of Earth. The radius R of Earth is 6371 km. p0 = __ kg * m/s Define the time at which the previous result was calculated as t0. What is the magnitude of the net change Δ?1 in the object's momentum in the 6 h following t0? Δp1 = __ kg * m/s Now, calculate the magnitude of the total change Δp2 in the object's momentum 12 h after t0. Δp2 = __ kg * m/s
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Calculate the magnitude of the linear momentum p0 of a 43.7 kg object on the Equator, as measured from the center of Earth. The radius R of Earth is 6371 km.
p0 = __ kg * m/s
Define the time at which the previous result was calculated as t0. What is the magnitude of the net change Δ?1 in the object's momentum in the 6 h following t0?
Δp1 = __ kg * m/s
Now, calculate the magnitude of the total change Δp2 in the object's momentum 12 h after t0.
Δp2 = __ kg * m/s
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