Condensation.
A gas becoming a liquid is condensation.
A liquid becoming a solid is freezing.
A solid becoming a liquid is melting.
A liquid becoming a gas is vapourization.
A gas becoming plasma is ionization.
A plasma becoming a gas is recombination
I believe that is fermentation.
The formation of chemical bonds releases energy. It is an exothermic process. The breaking of chemical bonds takes energy. It is an endothermic process.
none. energy is lost and that is thermal
There is no particular difference between heat and thermal energy. Heat is a form of thermal energy. Since thermal energy is energy from heat, heat and thermal energy are basically the same thing.
Yes they break down sugar and realeses energy using a process called femantation
No, the substance absorbs thermal energy and its temperature increases, not decreases. Cooling occurs when the substance releases thermal energy.
The candle itself isn't but the flame is thermal energy.
In a refrigerator, electrical energy is transformed into thermal energy as the refrigerant absorbs heat from inside the fridge and releases it outside, cooling the interior.
As steam releases thermal energy inside the radiator, it begins to cool down and condenses back into water. This process of condensation releases heat energy into the surrounding environment, helping to warm up the room or space where the radiator is located.
Fire is a form of thermal energy that is produced when a substance undergoes combustion. The heat generated during the combustion process creates flames and releases thermal energy into the surrounding environment. In essence, fire is a visible manifestation of thermal energy.
Condensation releases thermal energy. As vapor cools and condenses into liquid form, it releases heat energy into its surroundings.
The chemical energy stored in fossil fuels is converted to thermal energy when they are burned. This process releases heat energy, which can be harnessed for various applications such as electricity generation or heating.
An air conditioner operates similarly to a refrigerator by transferring thermal energy from inside a room to the outside. This is achieved through the use of a refrigeration cycle that absorbs heat from inside the room and releases it outside, cooling the indoor space in the process.
Thermal energy in condensation refers to the heat energy released when water vapor changes into liquid water. As water vapor cools down, it releases thermal energy, resulting in the condensation of water droplets. This process is important in the formation of clouds and precipitation.
The cooling system moves the heat (thermal energy) to the air.
In an air conditioner, thermal energy is the heat energy that is absorbed from the indoor air by the refrigerant as it evaporates in the evaporator coil. This thermal energy is then released to the outside air as the refrigerant condenses in the condenser coil, cooling the indoor air in the process.
Chemical energy is converted to thermal energy through a process called combustion. When a chemical reaction takes place, such as burning fuel, it releases stored chemical energy in the form of heat. This heat energy increases the temperature of the surroundings, converting chemical energy into thermal energy.