Final answer:
In a place with lower gravity, free fall would be impacted because the acceleration due to gravity would be less than on Earth. This means that objects would fall at a slower rate and take longer to reach the ground compared to Earth.
Step-by-step explanation:
In a place with lower gravity, such as Earth's moon, free fall would be impacted because the acceleration due to gravity would be less than on Earth. On Earth, all objects fall toward the center of the Earth with the same constant acceleration, regardless of their mass. This means that heavier and lighter objects will fall at the same rate when air resistance and friction are negligible.
However, on a place with lower gravity, the acceleration due to gravity would be lower, resulting in objects falling at a slower rate. This means that objects would take longer to reach the ground compared to the equivalent situation on Earth. For example, if you were to drop a ball on the moon, it would take longer to reach the ground compared to dropping it on Earth.
So, in a place with lower gravity, free fall would be impacted by a decrease in the acceleration due to gravity, resulting in objects falling at a slower rate.