Question
An astronaut drops a feather and a bowling ball from the same height from the door of a lunar landing module. They land on the ground at the same time. Why?(1 point)
Responses

They will fall at the same rate regardless of their mass, and on the moon they won't be impacted by air resistance due to a lack of atmosphere.
They will fall at the same rate regardless of their mass, and on the moon they won't be impacted by air resistance due to a lack of atmosphere.

Objects fall at the same rate on the moon because it has a much lower mass than Earth.
Objects fall at the same rate on the moon because it has a much lower mass than Earth.

The moon has much less gravity than the Earth and this give them a floating quality.
The moon has much less gravity than the Earth and this give them a floating quality.

Objects with more mass always fall faster than objects with less mass, regardless of the planet you are on.
Responses

They will fall at the same rate regardless of their mass, and on the moon they won't be impacted by air resistance due to a lack of atmosphere.
They will fall at the same rate regardless of their mass, and on the moon they won't be impacted by air resistance due to a lack of atmosphere.

Objects fall at the same rate on the moon because it has a much lower mass than Earth.
Objects fall at the same rate on the moon because it has a much lower mass than Earth.

The moon has much less gravity than the Earth and this give them a floating quality.
The moon has much less gravity than the Earth and this give them a floating quality.

Objects with more mass always fall faster than objects with less mass, regardless of the planet you are on.
Answers
GPT-4o mini
The correct response is:
**They will fall at the same rate regardless of their mass, and on the moon they won't be impacted by air resistance due to a lack of atmosphere.**
This is because, in a vacuum (which is essentially the condition on the Moon), all objects fall at the same rate due to gravity, regardless of their mass, and there is no air resistance to affect their fall.
**They will fall at the same rate regardless of their mass, and on the moon they won't be impacted by air resistance due to a lack of atmosphere.**
This is because, in a vacuum (which is essentially the condition on the Moon), all objects fall at the same rate due to gravity, regardless of their mass, and there is no air resistance to affect their fall.