friction creates heat.
Largely heat, which comes from the external agent energy causing the friction. Also some possible rearrangement of the atomic/molecular structure of the surface, and the energy for that also comes from the external agent.
Most of the energy wasted through friction is converted to heat.
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 .
Friction is the interaction of (relatively) opposed matter and orbital electron energy caused to displace or vibrate thereby transferring sound (or noise) energy through the matter structure due to kinetic energy being displaced in interacting atomic structures. When friction is aplied, the energy between the object increases. It can create thermal energy(heat). Depending on the objects with friction applied, the types of energy created can differ.
because when friction builds up too much energy it is released through spraks and so.
The friction force converts mechanical energy of the body into heat energy that is released. Work done by mechanical energy=Force x displacement =Heat produced.
Static Friction.
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 .
Because some energy is expended in overcoming the friction and not applied to performing the task which the machine is meant to do.
Static friction is not necessarily an applied force, but something that occurs when there is an applied force. Static friction occurs when there is no motion and there is a force being applied to an object on a surface.
The friction produced that stops an object moving when force is applied is 'static friction'.
Some work is lost due to friction. This energy is normally released as heat.
Friction is the interaction of (relatively) opposed matter and orbital electron energy caused to displace or vibrate thereby transferring sound (or noise) energy through the matter structure due to kinetic energy being displaced in interacting atomic structures. When friction is aplied, the energy between the object increases. It can create thermal energy(heat). Depending on the objects with friction applied, the types of energy created can differ.
Limiting friction is the case of static friction where an object is right on the edge of moving, any more force applied to the object will cause it to move. Limiting friction is the largest value that the static friction can take
Friction is the interaction of (relatively) opposed matter and orbital electron energy caused to displace or vibrate thereby transferring sound (or noise) energy through the matter structure due to kinetic energy being displaced in interacting atomic structures. When friction is aplied, the energy between the object increases. It can create thermal energy(heat). Depending on the objects with friction applied, the types of energy created can differ.
because when friction builds up too much energy it is released through spraks and so.
When the brakes are applied, the car's kinetic energy is converted to heat by friction between the brake pad and the brake disk.
when the man rub the two stones due to friction the external applied energy change into the heat energy which was seen in the form of fire....
No. Friction can only slow an object down. If friction were imparting a force greater than that of the applied forces, then friction in and of itself would actually be causing the object to move, which does not happen.