Just use the formula for potential energy:
PE = mgh
(potential energy = mass x gravity x height).
Use 9.8 for gravity, replace the parts you know, and solve for the unknown position (height).
That is called potential energy. For example, in the case of gravitational potential energy: If an object is raised, its potential energy increases.
Gravitational potential energy increases; kinetic energy increases.
This is actually two questions. Energy relating to the motion of an object is kinetic energy. Energy related to its position is potential energy (as with a brick suspended at some distance above the ground). Release the brick and its potential energy is converted to kinetic energy. The two are complementary. As the brick accelerates toward the ground its kinetic energy increases; as the distance decreases during that acceleration, it's potential energy decreases.
Potential energy is associated with the position of an object.
If using the formula U=mgh, then potential energy increases when the height above the ground increases.
That is called potential energy. For example, in the case of gravitational potential energy: If an object is raised, its potential energy increases.
It increases.
increases
Gravitational potential energy increases; kinetic energy increases.
potential energy is changed to kinetic energy when you push.
It can be a little complicated but I'll do my best to explain.Quick Vocab: potential energy - the stored energy in an object because of its position, shape, or condition. Kinetic energy - the energy of an object due to its motion. The more potential energy an object has the more Kinetic energy it will have. Basically when the object is moved the potential energy is released and becomes kinetic energy. As the kinetic energy (speed) increases the Potential energy decreases.So yes, when the potential energy decreases the speed increases.
This is actually two questions. Energy relating to the motion of an object is kinetic energy. Energy related to its position is potential energy (as with a brick suspended at some distance above the ground). Release the brick and its potential energy is converted to kinetic energy. The two are complementary. As the brick accelerates toward the ground its kinetic energy increases; as the distance decreases during that acceleration, it's potential energy decreases.
when the position of the BALL is changed WITH RESPECT TO HEIGHT then P.E change in to K.E
Potential energy is calculated as follows:Eg = mghWhere:Eg = Potential Gravitation Energym = Object's massg = Gravitational constanth = Height difference from the point of relation (usually the ground).So when we input the data into our variables, we get:240J = 8kg10m/s2hand after some quick calculations:h = 3m
Potential energy is associated with the position of an object.
If using the formula U=mgh, then potential energy increases when the height above the ground increases.
Potential energy will decrease.