They'll both hit the ground at the same time.
The stronger gravitational condition would make the object fall faster. The weaker the gravitational condition the slower the object would fall.
Nothing. The mass will not change with a gravitational increase, but the weight will.
The intensity of the gravitational force is smaller.
There will be a gravitational force of attraction between them, but this would be the same in a vacuum as it would be in any other place.
the gravitational force pulling them together is reduced.
The stronger gravitational condition would make the object fall faster. The weaker the gravitational condition the slower the object would fall.
Without the interference of air or any other force, they should fall at the same speed. All objects accelerate at the same rate regarding their masses. To conclude, If this was made in a vacuum they should fall at the same speed but in different conditions it may have different results due to air resistance.
The frame is dropped
When charges are dropped then you are free to go
Nothing. The mass will not change with a gravitational increase, but the weight will.
It decreases[:
spring tides happens werdio's
spring tides happens werdio's
the gravitational force between them decreases.
The intensity of the gravitational force is smaller.
it dies
They would hit the ground at the same time, Galileo dropped to balls with different masses and they both hit the ground at the exact same time.