Potential energy = mass * gravity * height
Ep=mgh
You should know the mass of the object and gravity as 9.81.
So rearranging the formule Ep/mg=h.
Potential energy / (mass * gravity) = height.
Potential energy is related to an object's height, specifically gravitational potential energy. This type of energy increases with an object's height above the ground and is a measure of the work that can be done by gravity as the object falls.
Kinetic energy is the energy an object possesses due to its motion, while potential energy is the energy that an object has due to its position or state. Kinetic energy is dependent on an object's velocity, while potential energy is dependent on its height, position, or configuration.
As the kinetic energy of an object increases, its potential energy decreases. This is because energy is transformed from potential to kinetic as an object gains speed or movement. The total mechanical energy of the object (the sum of kinetic and potential energy) remains constant if no external forces are acting on the object.
Kinetic energy is the energy an object possesses due to its motion, while potential energy is the energy stored in an object based on its position or configuration. Kinetic energy depends on mass and velocity, while potential energy depends on height, position, or state of compression/expansion.
Rolling down a hill involves both potential and kinetic energy. At the top of the hill, the object has potential energy due to its height. As it rolls down, this potential energy is converted into kinetic energy as the object gains speed.
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.
You can change the gravitational potential energy of an object by changing its height relative to the surface of the Earth. Increasing the height will increase the gravitational potential energy, while decreasing the height will decrease it.
Doubling the mass of an object would double its potential energy as long as the height or position of the object remains constant. Potential energy is directly proportional to mass when height is a constant factor.
Gravitational potential energy depends on the difference of height. If the length of the ramp is changed, but the endpoints have the same difference in height, there won't be any change in gravitational potential energy. If, on the other hand, the change is done in a way that the height does change, then gravitational potential energy will also change.
Also double since potential energy is the energy stored in a body due it's position.
When the height of an object is doubled, its potential energy also doubles. This is because potential energy is directly proportional to the height of an object above the reference point. Increasing the height increases the gravitational potential energy stored in the object.
Yes, that's correct. The potential energy gained by lifting an object is directly proportional to the weight of the object and the height it is lifted. The formula to calculate this potential energy increase is PE = mgh, where m is the mass of the object, g is the acceleration due to gravity, and h is the change in height.
it will become three time, as potential energy=mgh substitude, h'=3h than potential energy=mgh' =mg(3h) =3(mgh) =three times original potential energy
Potential energy is the amount of energy stored in an object due to its height. This is maximum for an object which has maximum height and vice versa. So the most potential energy would be for object with greatest height.
The potential energy of an object at a certain height can be calculated using the formula: potential energy mass x gravity x height. This formula takes into account the mass of the object, the acceleration due to gravity, and the height at which the object is located. By plugging in the values for mass, gravity, and height, you can determine the potential energy of the object.
You can change the gravitational potential energy of an object by altering its height or the strength of the gravitational field it is in. Increasing the height or the strength of the gravitational field will increase the gravitational potential energy, while decreasing either will decrease the gravitational potential energy.
When an object is pushed along an inclined plane to a height, its potential energy increases due to the change in height. This is because work is done against gravity to lift the object to a higher position. The object's kinetic energy may also change depending on how it was pushed and any friction present on the inclined plane.