Gravitational Potential Energy
Potential energy
If you are in a skidding vehicle, higher gravity will cause shorter skidding length. If you throw an object up in the air, higher gravity will decelerate it more quickly than normal.
A big object because it has more mass which means more gravity pulling it towards the ground.
No, objects cannot have more than one center of gravity. The center of gravity of an object can however change.
the more mass the object has the stronger the gravity will pull down on the object making it heavier
Potential energy
If you are in a skidding vehicle, higher gravity will cause shorter skidding length. If you throw an object up in the air, higher gravity will decelerate it more quickly than normal.
No, the more mass of an object the more gravity it exerts.
A big object because it has more mass which means more gravity pulling it towards the ground.
No, objects cannot have more than one center of gravity. The center of gravity of an object can however change.
Because I know more than you and I am right and you are wrong so the answer is what I said it was because of gravity you idiot!!!!!!!!!
the more mass the object has the stronger the gravity will pull down on the object making it heavier
Yes. Mass is constant for a given object. Weight is a function of mass and gravity, stronger gravity more weight.
When the CG of an object is raised, gravitational potential energy increases due to a higher positioning from the ground, and therefore a higher "potential" to fall.
Mass effects gravity because the more mass the object has the more gravity it has. For example the sun has more gravity then the Earth. I am not understanding what you mean by direction. I don't think it affects it all. But I do know that distance affects gravity because the farther away the object the more force of gravity will be needed to pull it. Hope it helps and reply back plz. ~ImQuiteFascinating
Because the more mass an object an object the more gravity it has.
More gravity = more weight. Gravity will hardly change the mass of an object (except for effects due to the Theory of Relativity, which are usually insignificant).