its mass, m; its height, h; its gravity acceleration field, g
potential energy = mgh
Gravitational-potential energy.
As an interstellar gas cloud shrinks in size, it's gravitational potential energy gradually transforms into other forms of energy.
The pendulum's momentum or kinetic energy is converted to gravitational potential energy until all of the kinetic energy is converted. The pendulum stops.
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Gravitational potential energy = m*g*h = 75*9.8*3 = 2205 Newtons.
height gravitational acceleration and mass
The formula for potential energy is PE = mgh (mass x gravity x height), so it depends on those three values.
Look at the formula for gravitational potential energy. The clues are all there.
Yes. Mass is one of the variables (mass, gravity and height) for which gravitational potential energy is the product (meaning the multiplication of), so increasing mass will increase the gravitational potential energy in direct proportion.
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)
Gravitational potential energy = (weight of the object) x (height) or Potential energy = (mass) x (acceleration of gravity) x (height)
Weight and height
Mass and 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.
Gravitational PE = mgh; the product of mass, gravity, and height. At a greater height, there will be more potential energy.
Gravitational energy Potential energy
Gravitational energy is the potential energyassociated with the gravitational field.