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Energy can neither be created nor destroyed. It is converted to other forms of energy. There is potential energy and kinetic energy. Sitting on your bicycle on top of the hill you have no kinetic energy, only potential energy. When you ride down the hill, the potential energy is used up (you go down the hill) and it converts to kinetic energy (speed). "What happens when you stop at the bottom of the hill - wasn't the potential and kinetic energy destroyed?" No. All the potential energy was converted to kinetic energy. The kinetic energy was converted to heat through the wind resistance. So, if you had an extremely accurate thermometer, you would see the air and bicycle temperature rise as you went down the hill.
its particles stop moving around because of loosing kinetic energy. As you know kinetic energy is something that moves around .And particles in sample of matter cool off and stop.
Kinetic energy is the energy of motion. Energy cannot be destroyed, but it can be converted into other forms. When you want to get rid of kinetic energy, we normally use a brake, which converts the kinetic energy into heat energy through friction. With some hybrid automobiles, they use "regenerative braking" to convert the kinetic energy of motion back into electrical energy in the batteries.
Well, right before you are about to push it or while it is sitting at the top of a hill, the ball has potential energy. This means the ball has to potential to move or roll. This can be seen as a roller coaster at the tallest point of the ride. Then, while it begins to roll, the ball has kinetic energy while it moves until the forces of gravity and friction are able to stop its kinetic energy.
well when you swim you are moving witch has to do with konetic ,and patenchal is when u stop and store the energy soo the awnser is yess
Kinetic energy is the energy that comes from motion. When a bicycle slows down its motion becomes less so its kinetic energy becomes less. when you slow down, your kinetic energy is reduced.
Yes - bring it to a complete stop.
i think it is kinetic energy to thermal energy.
Energy can neither be created nor destroyed. It is converted to other forms of energy. There is potential energy and kinetic energy. Sitting on your bicycle on top of the hill you have no kinetic energy, only potential energy. When you ride down the hill, the potential energy is used up (you go down the hill) and it converts to kinetic energy (speed). "What happens when you stop at the bottom of the hill - wasn't the potential and kinetic energy destroyed?" No. All the potential energy was converted to kinetic energy. The kinetic energy was converted to heat through the wind resistance. So, if you had an extremely accurate thermometer, you would see the air and bicycle temperature rise as you went down the hill.
Let's get started! An object in motion possesses kinetic energy and to bring the object to a stop this kinetic energy must be removed. ... A mechanical brake applies a friction force to convert the kinetic energy of the vehicle into thermal energy which then dissipates into the atmosphere.
its particles stop moving around because of loosing kinetic energy. As you know kinetic energy is something that moves around .And particles in sample of matter cool off and stop.
The roller coaster does not have kinetic energy at the top of the hill
Friction converts kinetic energy into heat energy.
Kinetic energy is the energy of motion. Energy cannot be destroyed, but it can be converted into other forms. When you want to get rid of kinetic energy, we normally use a brake, which converts the kinetic energy into heat energy through friction. With some hybrid automobiles, they use "regenerative braking" to convert the kinetic energy of motion back into electrical energy in the batteries.
Its a transformation of kinetic energy to potential energy.
It is your momentum of moving forward that has to be overcome before your brakes can bring the bicycle to a stop.
In a physics sense, your moving body has a certain kinetic energy. If you bring it to a stop, you will have to dissipate that energy by tumbling, braking, deforming. (ouch!) You may not be able to do this safely.