the energy in an object about to fall is potential energy then kinetic energy because when the object is not falling, it has potential energy but when it's actually falling, it has kinetic energy.
potential because it hasn't fallen yet so its not using any energy
That would be kinetic. Anything moving has kinetic energy. A ball falling is a ball moving hence it has kinetic energy.
Kinetic. When you throw a ball in the air, it loses kinetic energy, while it gains potential. When it falls, it loses potential energy, but gains kinetic.
BEFORE the object falls, it has gravitational potential energy. As it falls, this gets converted into kinetic energy.
When you lift an object, the energy transferred to the object is called gravitational potential energy.
When the only force on an object is the force of gravity,we say that the object is in "free fall".
In the case of a falling object, the instant before the object hits the ground. U = KE + PE; PE=-KE . Inversely, the object has the highest potential energy (lowest kinetic energy) at the starting point of the fall.
A falling object has the greatest potential energy when it is highest, at the beginning of the fall. It has the greatest kinetic energy when it is at its lowest, at the end of the fall. Without taking friction or air resistance into account, the beginning potential energy is the same as the final kinetic energy. If friction is considered, the beginning potential energy is greater.
Let's assume the object is falling down (this is only one case of free fall). Its speed increases, therefore, its kinetic energy increases. However, to compensate, the object loses energy of position - potential energy. The sum of the two, kinetic energy + potential energy, remains constant, as long as no other forces (other than gravity) act on the object.
Yes. One type of potential energy is gravitational potential energy, or how much energy an object has based on how far it can fall. If you lower an object, it loses gravitational potential energy because it can't fall as far. Likewise, if you raise an object, it gains G.P.E.
When you lift an object, the energy transferred to the object is called gravitational potential energy.
When the only force on an object is the force of gravity,we say that the object is in "free fall".
frigerader ice Potential energy.
Directly. The greater the potential fall, the greater the potential energy.
Kinetic energy is the motion of an object (real). Potential energy is a measure of the kinetic energy an object WOULD have if it were to be released and allowed to fall.
In the case of a falling object, the instant before the object hits the ground. U = KE + PE; PE=-KE . Inversely, the object has the highest potential energy (lowest kinetic energy) at the starting point of the fall.
A falling object has the greatest potential energy when it is highest, at the beginning of the fall. It has the greatest kinetic energy when it is at its lowest, at the end of the fall. Without taking friction or air resistance into account, the beginning potential energy is the same as the final kinetic energy. If friction is considered, the beginning potential energy is greater.
potential because it hasn't fallen yet so its not using any energy
Let's assume the object is falling down (this is only one case of free fall). Its speed increases, therefore, its kinetic energy increases. However, to compensate, the object loses energy of position - potential energy. The sum of the two, kinetic energy + potential energy, remains constant, as long as no other forces (other than gravity) act on the object.
The potential energy will have converted into some other kind of energy. For example, for an object in free fall, it converts to kinetic energy (the object moves faster); if there is some resistance, part of this energy will convert to heat.
Any object that is above the chosen reference level (often this is the ground level) will have positive potential energy. Any object below the chosen reference level will have negative potential energy.