Until the objects touching have equal temperatures.
No, heat energy does not flow indefinitely. It will continue to flow until a thermal equilibrium is reached where all objects involved reach the same temperature. Once this equilibrium is achieved, there will be no further flow of heat energy.
No, energy does not naturally flow as heat from a lower temperature to a higher temperature. Heat energy always flows from a higher temperature to a lower temperature in accordance with the second law of thermodynamics.
Yes, a resistor converts electrical energy into heat as it interferes with the flow of charge. This energy is dissipated in the form of heat due to the resistance of the resistor material.
When the heat is traveling in the form of radiation, there's no reason for it to stop as long as the source is active. In the conductive and convective situations, the flow of heat from one material or object to the other stops when their temperatures are equal.
A heat pump can reverse the normal flow of thermal energy by transferring heat from a cooler space to a warmer space, using electricity to move heat in the opposite direction it naturally flows.
No, heat energy does not flow indefinitely. It will continue to flow until a thermal equilibrium is reached where all objects involved reach the same temperature. Once this equilibrium is achieved, there will be no further flow of heat energy.
heat flow and waves
heat
yes it is
yes the heat will flow threw, but not create energy
yes or no ______________________________________ yes
Heat energy would flow from the hand to the ice, unless the hand is colder than the ice, in which case the heat energy would flow from the ice to the hand.
Heat (or thermal energy).
conductor
No, energy does not naturally flow as heat from a lower temperature to a higher temperature. Heat energy always flows from a higher temperature to a lower temperature in accordance with the second law of thermodynamics.
Yes, a resistor converts electrical energy into heat as it interferes with the flow of charge. This energy is dissipated in the form of heat due to the resistance of the resistor material.
The flow of heat energy through materials.