Answer :
The satellite with the greater mass is being pulled toward Earth with greater force
than the satellite with less mass is.
But if they're both orbiting Earth at the same distance, then they both orbit in the
same time. That's how "space walks" work. Even though the astronaut has a lot
less mass than the Shuttle or the International Space Station has, they're both
orbiting Earth at the same distance, so the time it takes both of them to orbit is
the same, and the astronaut can float beside the spacecraft.
than the satellite with less mass is.
But if they're both orbiting Earth at the same distance, then they both orbit in the
same time. That's how "space walks" work. Even though the astronaut has a lot
less mass than the Shuttle or the International Space Station has, they're both
orbiting Earth at the same distance, so the time it takes both of them to orbit is
the same, and the astronaut can float beside the spacecraft.
Answer:
2. The satellite with the greater mass is being pulled toward earth with greater force than the other satellite
Explanation:
Because the greater the mass of something in orbit of the Earth, the greater the gravitational force.
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