The more mass something has, the stronger its gravity.
Mass and distance.
the more mass the object has the stronger the gravity will pull down on the object making it heavier
Gravity does not effect mass, weight is what you get when you resist the effects of gravity. (Note that in "free fall" and/or "micro gravity" you are not resisting.)
Gravity pulls objects towards Earth. Or, in more general terms, towards any mass.
WEll, mass is how much you take up. If you were to go to the moon, you weight would change but your mass would not. Answer your question?My version:Weight is a subjective measurement based on gravity Mass is a measurement that precludes the effects of gravity and will be how the gravitational pull is measured
gravity and how mass is effected by it
Mass and distance.
the more mass the object has the stronger the gravity will pull down on the object making it heavier
No. Mass causes gravity, and it can be measured bythe effects of gravity, but mass also has other effects - especially, inertia. Mass is often explained as the "amount of matter". Please note that this is an informal, and not very precise, definition - but it may help you understand what it is about.
Gravity does not effect mass, weight is what you get when you resist the effects of gravity. (Note that in "free fall" and/or "micro gravity" you are not resisting.)
Gravity effects heavier objects. In other words the heavier the object is, the more gravity effects the object which makes it heavy.
The mass of a black hole can be measure by the effects of its gravity on surrounding objects.
No. Except for insignificant effects related to Special Relativity, the mass remains constant. The weight, on the other hand, changes. Weight is calcualted as: weight = mass x gravity Where "gravity" is the acceleration due to gravity.
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).
The Earth's mass, and how far you are from the center of the Earth.
Gravity pulls objects towards Earth. Or, in more general terms, towards any mass.
The source of gravity of the moon is the same as anywhere else, all mass attracts all other mass, the effects depend on the amounts and the proximity