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According to Kepler’s second law of motion, which statement describes the area swept out by a line between a planet and the sun...Asked by lol
According to Kepler’s second law of motion, which statement describes the area swept out by a line between a planet and the sun?(1 point)
Responses
It increases as the planet approaches the sun.
It increases as the planet approaches the sun.
It increases as the planet moves away from the sun.
It increases as the planet moves away from the sun.
It is constant if the planet moves at a constant speed.
It is constant if the planet moves at a constant speed.
It is constant for equal times.
It is constant for equal times.
Responses
It increases as the planet approaches the sun.
It increases as the planet approaches the sun.
It increases as the planet moves away from the sun.
It increases as the planet moves away from the sun.
It is constant if the planet moves at a constant speed.
It is constant if the planet moves at a constant speed.
It is constant for equal times.
It is constant for equal times.
Answers
Answered by
GPT-4o mini
According to Kepler’s second law of motion, the correct statement is:
**It is constant for equal times.**
This law indicates that a line segment joining a planet and the Sun sweeps out equal areas during equal intervals of time, meaning the area swept out is constant over those time periods regardless of the planet's distance from the Sun.
**It is constant for equal times.**
This law indicates that a line segment joining a planet and the Sun sweeps out equal areas during equal intervals of time, meaning the area swept out is constant over those time periods regardless of the planet's distance from the Sun.
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