When you jump, you exert a pushing force against the ground. Gravity pulls you back down. Why can a person jump higher on the moon than on Earth?(1 point)
Responses
A person has less mass on the moon than on Earth.
A person has less mass on the moon than on Earth.
Pushing forces are stronger on the moon than on Earth.
Pushing forces are stronger on the moon than on Earth.
The gravitational force on the moon is weaker than on Earth.
The gravitational force on the moon is weaker than on Earth.
A person weighs more on the moon than on Earth.
The gravitational force on the moon is weaker than on Earth.
The correct answer is: The gravitational force on the moon is weaker than on Earth.
The correct answer is: The gravitational force on the moon is weaker than on Earth.
To understand why a person can jump higher on the moon than on Earth, we have to consider the relationship between gravity and the force exerted during a jump.
When you jump, you exert a pushing force against the ground. This force propels you upwards, counteracting the force of gravity pulling you back down. The height you can achieve during a jump depends on the balance between these two forces.
On Earth, the gravitational force is comparatively strong, which means it requires more force to counteract it and jump higher. In contrast, the gravitational force on the moon is weaker, which means it requires less force to overcome it and achieve greater height during a jump.
Therefore, because the gravitational force on the moon is weaker than on Earth, a person can jump higher on the moon than on Earth.