The strength of the gravitational force between two objects depends on the
product of their individual masses, and on the distance between their centers
of mass.
It's a bit sloppy to talk about one object's gravitational force on another object,
because the forces are equal in both directions ... both objects pull each other
with equal force.
The two objects exert equal gravitational forces of attraction on each other.
The strength of the forces is determined by
Look at the formula for gravitational attraction; it's all there. The answer is:* The mass of one object
* The mass of the other object
* The distance between the objects
Mass and Distance
Height above the ground, and mass of the object itself.
Its weight and the height Thank you....
-- the object's mass -- its height above some reference level
An object's gravitational pull is determined by the object's mass.
The strength of the gravitational force between two objects depends on the product of their individual masses, and on the distance between their centers of mass. It's a bit sloppy to talk about one object's gravitational force on another object, because the forces are equal in both directions ... both objects pull each other with equal force.
The masses of both objects, and the distance.
One of the factors that determine force of impact is the object's mass. Another factor that will determine the force of impact is the object's velocity.
The mass of each object and the distance between their centers of mass
The gravitational pull on the density of an object!
Look at the formula for gravitational potential energy. The clues are all there.
The two variables that determine gravitational potential energy are height above earths surface mass (also air resistance may come into play but in physics friction and air resistance are usually ignored and)