Thermal energy.
No, water releases thermal energy during condensation. It absorbs thermal energy during evaporation, which is why the evaporation of sweat cools your skin.
No, the condenser does not absorb thermal energy from refrigerated space and reject it into the condensing medium. The condenser rejects heat. The evaporator absorbs heat.
The coolant absorbs heat inside the fridge, carries it outside, and releases the heat to the air.
This happens in the fuel rods, the energy released by nuclear fission appears initially as kinetic energy of the fission fragments, which is quickly turned into thermal energy as the fragments slow down and are stopped in the fuel. Thus the fuel rods heat up and transfer thermal energy to the coolant, which in most reactors is water but can be gas or liquid metal.
It is often useful as a coolant because it can absorb thermal energy without a large change in temperature.
a fluid that is circulated through a machineor other object in order to absorb thermal energy from it and thus control its temperature
Thermal energy.
Thermal energy
For evaporation water absorb thermal energy from the environment.
No, water releases thermal energy during condensation. It absorbs thermal energy during evaporation, which is why the evaporation of sweat cools your skin.
Yes coolant is used in a cycle
Greenhouse gases.
No, an object will not be a net radiator of energy when its thermal energy is less than that of its surroundings. In this case, the object will instead absorb thermal energy from its surroundings in an attempt to reach thermal equilibrium.
During evaporation water absorb thermal energy from the environment.
To become a solid, a liquid will absorb heat energy.
No, the condenser does not absorb thermal energy from refrigerated space and reject it into the condensing medium. The condenser rejects heat. The evaporator absorbs heat.