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Question
a spacecraft that seems to be motionless in deep space is given some type of quick push. which statement describes what will happen? see slides 9-8-25
the spacecraft will move and will not stop until it is stopped by an equal and opposite force
the spacecraft will move and then slowly come to a stop on its own
the spacecraft will remain still because it only works on earth
the spacecraft will remain still due to air resistance
To solve this, we use Newton's first law of motion (inertia), which states that an object in motion will stay in motion with constant velocity unless acted upon by a net external force. In deep space, there's no air resistance or significant external forces (like friction) to slow the spacecraft.
- Analyzing the options:
- Option 1: Correct. Once pushed, the spacecraft will move, and since there's no opposing force (in deep space, no air resistance, minimal gravity effects), it will continue moving until a net external force (equal and opposite, like a thruster in the opposite direction) acts on it.
- Option 2: Incorrect. There's no "slow down" force (like friction/air resistance in deep space), so it won't come to a stop on its own.
- Option 3: Incorrect. Newton's laws apply universally, not just on Earth.
- Option 4: Incorrect. Deep space has no air, so no air resistance to stop it.
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A. The spacecraft will move and will not stop until it is stopped by an equal and opposite force