Energy wasted due to friction is converted mostly to heat.
If it is moving, there is kinetic friction. If it is not moving, it is static friction
It is mostly heat, but there can also be light and sound.
Friction produces thermal energy.
kenetic energ is by created by friction
heat
heat energy
heat
kinetic energy
gravity
Most of it will be converted to heat, via friction.
Mechanical generating heat
friction
Energy cannot be created nor destroyed. The change in temperature produced by rubbing your hands together is called friction, and it is the conversion of chemical energy in your cells into kinetic energy (The force that makes you rub your hands together) and that kinetic energy is partially converted into thermal energy. The conversion of kinetic to thermal is called friction.
Yes. Friction converts kinetic energy into other forms of energy, including heat energy. As the surface(s) rub together, a small thermal energy will be created.
my guess is kinetic energy
Most of it will be converted to heat, via friction.
Heat.
Mechanical generating heat
friction
Energy cannot be created nor destroyed. The change in temperature produced by rubbing your hands together is called friction, and it is the conversion of chemical energy in your cells into kinetic energy (The force that makes you rub your hands together) and that kinetic energy is partially converted into thermal energy. The conversion of kinetic to thermal is called friction.
Yes. Friction converts kinetic energy into other forms of energy, including heat energy. As the surface(s) rub together, a small thermal energy will be created.
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friction and air resistance are respectively the amount of force applied involving the dissipation of ENERGY and the oppsition offered to an object when moving in air. so friction and air resistance are not a type of energy but opposing forces .
The kinetic energy of the object changes into thermal energy.
heat energy
Friction can stop an object in motion eventually. Friction causes drag on the object's motion energy and slows the object down by transferring the energy from one type to another. When the energy which acted on the object to put the object in motion is fully transferred, the object's motion will stop in the direction the motion and friction are applied. An example of this type of friction is the brake on a car. Friction can, however cause the object to change the direction of motion and simply stop affecting the object afterward. An example of this type of friction is the bumper rail of a pool table.