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An astronaut on a space walk floats a little too far away from the space station. Without air to push against, he cannot paddle back. However, the astronaut is holding a hammer. Explain how the astronaut
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An astronaut on a space walk floats a little too far away

from the space station. Without air to push against, he
cannot paddle back. However, the astronaut is holding a
hammer. Explain how the astronaut could use the
hammer to move and why this will get him back to the
space station.

User Geoff Davids
by
5.2k points

2 Answers

1 vote

Answer:

He can throw it away from himself.

Step-by-step explanation:

Newtons Third Law says that everything has an equal, yet opposite reaction on other objects.

User Passiondroid
by
5.0k points
2 votes

Answer:

The astronaut can throw the hammer in a direction away from the space station. While he is holding the hammer, the total momentum of the astronaut and hammer is 0 kg • m/s. According to the law of conservation of momentum, the total momentum after he throws the hammer must still be 0 kg • m/s. In order for momentum to be conserved, the astronaut will have to move in the opposite direction of the hammer, which will be toward the space station.

edge 2020

User Ahmad Hajou
by
4.5k points
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