Friction causes kinetic energy to be converted into heat energy.
When friction causes an object to stop, the kinetic energy of the object is converted into thermal energy due to the heat generated by the friction between the object and the surface it is sliding on.
When rubbing hands together, kinetic energy is produced due to the friction between the hands. This friction causes the molecules in your hands to move faster, resulting in an increase in temperature.
I think it is kinetic and heat energy. An example of this would be if you were sliding down a rope and got rope burn- the kinetic energy causes you to move and friction is caused between your body and the rope and thus causing heat that equals rope burn. Hope this helps :-)
Friction converts kinetic energy to thermal energy, causing the surfaces in contact to heat up. The energy lost to friction results in a decrease in the overall kinetic energy of the system.
Kinetic energy is movement energy. So when you rub two sticks together, the rubbing is the kinetic energy. The friction that this causes releases heat. Heat is thermal energy. So due to friction you can convert kinetic energy into thermal energy by rubbing sticks together.
Heat.
When friction causes an object to stop, the kinetic energy of the object is converted into thermal energy due to the heat generated by the friction between the object and the surface it is sliding on.
When rubbing hands together, kinetic energy is produced due to the friction between the hands. This friction causes the molecules in your hands to move faster, resulting in an increase in temperature.
Kinetic energy and lack of opposing forces such as friction.
I think it is kinetic and heat energy. An example of this would be if you were sliding down a rope and got rope burn- the kinetic energy causes you to move and friction is caused between your body and the rope and thus causing heat that equals rope burn. Hope this helps :-)
Friction converts kinetic energy to thermal energy, causing the surfaces in contact to heat up. The energy lost to friction results in a decrease in the overall kinetic energy of the system.
Kinetic energy is movement energy. So when you rub two sticks together, the rubbing is the kinetic energy. The friction that this causes releases heat. Heat is thermal energy. So due to friction you can convert kinetic energy into thermal energy by rubbing sticks together.
The friction of running car tires on a road primarily causes kinetic energy to be converted into heat energy. This heat energy is a result of the resistance that occurs between the tires and the road surface, ultimately leading to a loss of energy in the form of heat.
Kinetic friction is associated with thermal energy (and sound or light).
The total energy of course won't change - you won't "gain" or "lose" energy (First Law of Thermodynamics). However, note that you are basically converting useful energy into unusable energy (Second Law of Thermodynamics).
Friction converts kinetic energy into heat energy when two surfaces rub against each other. This transfer of energy causes the objects to slow down and eventually come to a stop. The frictional force opposes the motion of objects, transforming their kinetic energy into other forms of energy.
The friction produced by rubbing your hands together is kinetic friction, which occurs when two objects are moving relative to one another. This type of friction converts kinetic energy into heat energy.