An object's mass determines how much gravity it has.
Gravity exists wherever there is a body, whatever the mass. The greater the mass, the greater the gravity.
Gravity will speed up a force if gravity acts in the same direction as the object is already moving - for example, if the object is already moving downward - and if counterforces (such as air resistance) don't interfere too much.
Mass is a measure of how much matter something has. Weight is the effect of gravity pulling on that mass. So an object that weighs 1kg on Earth would weigh less on the Moon which has less gravity even though the mass of the object is constant. The relationship is: Force of gravity on an object in a certain place = (object's mass) x (acceleration of gravity in that place) .
Weight = mass x gravity. Therefore, this will happen as long as gravity doesn't change.
An object's mass determines how much gravity it has.
mass of the object pulling
Yes it does but not as much as earth does. Every object that has mass also has gravity.
Mass.
Gravity.
Gravity exists wherever there is a body, whatever the mass. The greater the mass, the greater the gravity.
Gravity will speed up a force if gravity acts in the same direction as the object is already moving - for example, if the object is already moving downward - and if counterforces (such as air resistance) don't interfere too much.
An object on the moon's surface weighs 0.165 as much as it does on the Earth's surface.
Gravity is determined by the mass of an object. An object with twice the mass will have twice the gravitational pull. Since the moon is much smaller (has a lot less mass) than earth, the gravity on the moon is less than on earth.
Mass is a measure of how much matter something has. Weight is the effect of gravity pulling on that mass. So an object that weighs 1kg on Earth would weigh less on the Moon which has less gravity even though the mass of the object is constant. The relationship is: Force of gravity on an object in a certain place = (object's mass) x (acceleration of gravity in that place) .
Any object with mass affects gravity
No, but the centre of gravity need not be inside the object. Not unless Gravity is not a variable. But it is not possible for an object to not have a center of mass.