I have the same question. Right now my theory is apart of fact, where friction caused by oscillation at a high rate between two objects can in fact produce heat. Because oscillation means to vibrate and when you press the two objects together and they continue to move the friction produces heat. No different than rubbing your hands together really fast.
When the heat is applied to a contained body of gas or liquid, the gas expands or the liquid boils, expanding to produce steam. This expansion causes pressure in the container and that pressure can be mechanically transferred to a part of the container, producing motion.
no the electron stay the same speed of the nano corext
convection happens
no
heat...
Yes, friction can produce heat energy. When two surfaces rub against each other, the friction between them generates heat due to the resistance to motion. This is why you feel objects getting warmer when you rub them together.
Friction can produce heat (thermal energy) and noise when objects slide or rub against each other. The amount of heat and noise generated depends on the materials of the surfaces in contact, the force pressing the surfaces together, and the speed of motion.
it is speed of motion and direction of motion
Yes, flashlights produce heat.
heat...
by the motion of molecules in a substances
Shivering is a sign of loss of heat or decreased heat levels.
Kinetic (motion) and heat.
I'm going to suggest heat. You could describe heat as the atomic motion of an object. The movements don't really produce heat they are heat.
Friction produces heat. The other forces produce motion or stress.
Ultraviolet (UV) light does not carry heat. UV rays are a form of electromagnetic radiation that is invisible to the human eye and does not produce heat in the way that visible light or infrared radiation does. UV radiation can cause sunburn and skin damage, but this is due to its interaction with the skin, not by carrying heat.
it would not provide stability, produce motion, or generate heat
A human body regulates its temperature by sweating and shivering. When the body is too hot, glands produce sweat which contains heat and evaporates, taking the heat with it. When a human is too cold, the body starts to shiver, a quick, repeated motion which generated heat from repeated muscle motion.
Forces produce motion. Change in motion is directly proportional to applied force (Newton 2nd Law of Motion).
Forces are motion:gravitational force causes things to fall, Elastic spring force allows springs to be compressed or stretched and frictional force causes heat, but without motion, there's no heat, so basically, what I'm trying to say is, ALL the forces produce motion
it is speed of motion and direction of motion