heat/thermal
Friction can cause kinetic energy to change into thermal energy
Friction
energy
Friction is NOT energy. Friction is a FORCE (rather than a form of energy). It can be used in the formula: W = F·d where "W" stands for work (which IS energy), F stands for force (like friction), and "d" stands for distance over which the force is exerted. Typically when friction is present some kind of energy of motion such as mechanical energy or kinetic energy or potential energy is being transformed into heat.
None. All friction opposes the motion of the object on which it acts. As such it does negative work, transforming kinetic energy of the object into the random kinetic energy of the particles which make up the surroundings, in other words into heat.
Friction converts mechanical energy into heat energy, which is released as objects rub against each other. This heat energy can cause an increase in temperature in the surfaces experiencing friction.
Kinetic energy or the energy of motion is used which is then transformed to heat energy.
Friction can cause kinetic energy to change into thermal energy
Friction does not necessarily cause mechanical energy to be transformed into potential energy. Friction typically results in the conversion of mechanical energy into thermal energy, leading to an increase in temperature in the objects experiencing friction. Potential energy is associated with the position of an object in a gravitational field or an elastic material, and it is not directly influenced by friction.
When you cause friction, the kinetic energy from the rubbing motion is converted into heat energy. This increase in heat energy warms up your hands as they come into contact with each other or with another surface.
Static energy is when two objects are rubbed together and then cause a friction.
Yes.Yes.Yes.Yes.