A spherical satellite of approximately uniform density with radius 6.3 m and mass 295 kg is originally moving with velocity (2600, 0, 0) m/s, and is originally rotating with an angular speed 2 rad/s, in the direction shown in the diagram. A small piece of space junk of mass 8.6 kg is initially moving toward the satellite with velocity (-2200, 0, 0) m/s. The space junk hits the edge of the satellite as shown in the figure below, and moves off with a new velocity (-1300, 480, 0) m/s. Both before and after the collision, the rotation of the space junk is negligible. Part 1 M.R.1 Your answer is partially correct.

A spherical satellite of approximately uniform density with radius 6.3 m and mass 295 kg is originally moving with velocity (2600, 0, 0) m/s, and is originally rotating with an angular speed 2 rad/s, in the direction shown in the diagram. A small piece of space junk of mass 8.6 kg is initially moving toward the satellite with velocity (-2200, 0, 0) m/s. The space junk hits the edge of the satellite as shown in the figure below, and moves off with a new velocity (-1300, 480, 0) m/s. Both before and after the collision, the rotation of the space junk is negligible. Part 1 M.R.1 Your answer is partially correct.

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Question

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(a) Just after the collision, what are the components of the center-of-mass velocity of the satellite (o, and u,) and its rotational
speed wo? (Foru,, enter your answer to at least four significant figures.)
U₂ =
Dy =
(0) = i 0.0026
ISWET IS
Part 2
2558.8
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i
2558.8
* Your answer is incorrect.
4E+5
m/s
(b) Calculate the rise in the internal energy of the satellite and space junk combined.
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m/s
rad/s
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A spherical satellite of approximately uniform density with radius 6.3 m and mass 295 kg is originally moving with velocity (2600, 0, 0)
m/s, and is originally rotating with an angular speed 2 rad/s, in the direction shown in the diagram. A small piece of space junk of mass
8.6 kg is initially moving toward the satellite with velocity (-2200, 0, 0) m/s. The space junk hits the edge of the satellite as shown in
the figure below, and moves off with a new velocity (-1300, 480, 0) m/s. Both before and after the collision, the rotation of the
space junk is negligible.
Part 1
M.R.I
Your answer is partially correct.

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