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Energy related to the height of an object is gravitational potential energy.Energy related to the height of an object is gravitational potential energy.Energy related to the height of an object is gravitational potential energy.Energy related to the height of an object is gravitational potential energy.
Height directly affects gravitational potential energy, since this energy is equal to mgh (mass x gravity x height). Height does not affect kinetic energy, which depends on the speed, not on the height. Except indirectly - for example, if an object is falling down, its speed will usually increase.
Does speed 'effect' the gravitational potential energy of an object? No, but gravitational potential energy can be converted into kinetic energy - so the gravitational potential energy can effect the speed. Ep = mgh Energy Potential = mass * 9.81 (gravity) * height Speed / Velocity is absent from that equation.
Mass, Height, and Gravity Gravitational Potential Energy= Mass * gravity * height
Energy related to height sounds like the description of gravitational potential energy.
For example, in the case of gravitational potential energy, the formula is PE = mgh (the product of mass, gravity, height). Increase any of the three, and potential energy will increase.
I would have gravitational potential energy, which is energy due to height.
Mass, gravity, height.
Energy related to the height of an object is gravitational potential energy.Energy related to the height of an object is gravitational potential energy.Energy related to the height of an object is gravitational potential energy.Energy related to the height of an object is gravitational potential energy.
Apex Mass and height have the same effect on gravitational potential energy.
The mass, height and the force of gravity at the location.
the formula for gravitational potential energy if mgh(mass X gravity X height). gravity is always 9.81m/s2. assume height is constant, more mass means more gravitational potential energy and vice versa
Height directly affects gravitational potential energy, since this energy is equal to mgh (mass x gravity x height). Height does not affect kinetic energy, which depends on the speed, not on the height. Except indirectly - for example, if an object is falling down, its speed will usually increase.
potential energy is mass times height times gravity acceleration; so for example if you double the height or double the mass you double the potential energy
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)
Does speed 'effect' the gravitational potential energy of an object? No, but gravitational potential energy can be converted into kinetic energy - so the gravitational potential energy can effect the speed. Ep = mgh Energy Potential = mass * 9.81 (gravity) * height Speed / Velocity is absent from that equation.
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.