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A person running is not an example of potential energy. it is an example of kinetic energy.
In physics, the kinetic energy of an object is the energy that the object possess, due to the fact that the object is moving. When the object/skateboard isn't moving it has no kinetic energy. However when it is given energy such as a push, it would move and keep going until it is stopped by another force, such as a wall.
Potential energy is energy that is stored in an object, and can be changed into kinetic, or other forms of energy. There are many types, such as Elastic Potential Energy and Gravitational Potential Energy.
Carry it up a cliff. ************************** Increase the height of the object or increase the mass.
it does not accelerate
Yes because it will be moving.
A person running is not an example of potential energy. it is an example of kinetic energy.
In physics, the kinetic energy of an object is the energy that the object possess, due to the fact that the object is moving. When the object/skateboard isn't moving it has no kinetic energy. However when it is given energy such as a push, it would move and keep going until it is stopped by another force, such as a wall.
Potential energy is energy that is stored in an object, and can be changed into kinetic, or other forms of energy. There are many types, such as Elastic Potential Energy and Gravitational Potential Energy.
There is no "energy during momentum". A moving object has both non-zero momentum, and non-zero kinetic energy.
Potential Energy. That is, Energy of Position. An Object raised to a greater height than its original position will show an Increase in its Potential Energy.
No, not at all. Kinetic energy is energy related to movement - any moving object has kinetic energy; at low (non-relativistic) speeds, the kinetic energy is calculated as 0.5 x mass x velocity squared.No, not at all. Kinetic energy is energy related to movement - any moving object has kinetic energy; at low (non-relativistic) speeds, the kinetic energy is calculated as 0.5 x mass x velocity squared.No, not at all. Kinetic energy is energy related to movement - any moving object has kinetic energy; at low (non-relativistic) speeds, the kinetic energy is calculated as 0.5 x mass x velocity squared.No, not at all. Kinetic energy is energy related to movement - any moving object has kinetic energy; at low (non-relativistic) speeds, the kinetic energy is calculated as 0.5 x mass x velocity squared.
Carry it up a cliff. ************************** Increase the height of the object or increase the mass.
Potential energy, and then the chemical energy in its material.A stopped bicycle doesn't have much energy. It does (almost always) have some flammable parts which contain potential chemical energy. Even when stopped, if it is standing up it has some gravitation potential energy that would be released if it fell over. The inflated tires have some amount of elastic energy. Compressed air in the tires has some energy content. None of this amounts to very much, in comparison to the energy of a moving bicycle.
it does not accelerate
No, it can't, for it is meerly a non moving object.
Potential energy is not a resource, therefore it is neither. Look up the definition for potential energy and it may help you more.