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When two objects with different temperatures are combined, they will eventually reach thermal equilibrium, where their temperatures will equalize. The rate at which this occurs depends on factors such as the thermal conductivity and specific heat capacities of the objects. This process can be accurately predicted by using principles of thermodynamics and heat transfer.
Anonymous
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Heat
Heat.
heat
Heat.
No, two objects at different temperatures do not have the same thermal energy. Thermal energy is proportional to the object's mass, specific heat capacity, and temperature. So, objects at different temperatures will have different thermal energies.
Heat
Heat.
heat
Heat.
No, two objects at different temperatures do not have the same thermal energy. Thermal energy is proportional to the object's mass, specific heat capacity, and temperature. So, objects at different temperatures will have different thermal energies.
When two objects at different temperatures come into contact and exchange thermal energy until they reach a common temperature, this is known as thermal equilibrium. At this point, the objects' temperatures are balanced and no further net transfer of heat occurs between them.
The energy that flows between objects with different temperatures is called heat. Heat will naturally transfer from a warmer object to a cooler object until thermal equilibrium is reached.
The energy that flows between objects with different temperatures is called heat. Heat transfer occurs from a region of higher temperature to a region of lower temperature in order to reach thermal equilibrium.
Heat energy will be transferred from the hotter objects to cooler objects until they are all at the same temperature.
Radiation.
No, all objects do not give out the same amount of heat radiation. The amount of heat radiation emitted by an object depends on its temperature and its surface area. Objects at higher temperatures emit more heat radiation than those at lower temperatures.
When objects of two different temperatures are in contact, heat transfer occurs. The hotter object will transfer heat to the cooler object until they reach thermal equilibrium, where their temperatures are the same. This process is governed by the laws of thermodynamics.