Gravitational potential energy = mgh, where m is mass, g is the acceleration due to gravity, and h is the height above earth's surface.
For objects far away from the surface, GPE = GMm/r, where G is a constant, M is the mass of one body, m is the mass of the other, and r is the distance between their centers of mass.
PE=mgh. Potential energy is the product of mass x gravity x height.
The masses of both objects, and the distance.
The mass and distance (weight and height) determine the potential energy. A third factor can be the relative motion of the objects, which does not change the potential but may determine its effect.
The mass of the two objects and the distance between their centres of gravity.
gravitational potential energy!!!!!!
PE=mgh. Potential energy is the product of mass x gravity x height.
The masses of both objects, and the distance.
The mass and distance (weight and height) determine the potential energy. A third factor can be the relative motion of the objects, which does not change the potential but may determine its effect.
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)
If you mean gravitational potential energy, you use the formula PE = mgh (potential energy = mass x gravity x height).
The mass of the two objects and the distance between their centres of gravity.
gravitational potential energy!!!!!!
Gravitational potential energy
Their masses and the distance separating them affects their mutual gravitational attraction.
The mass of each object and the distance between their centers of mass
They all have the same gravitational potential energies.
Yes. Mechanical energy is the sum of potential energy and kinetic energy; this includes gravitational potential energy.