No,two objects at different temperature does not have the same thermal energy because both objects have different temperature .object with high temperature has more thermal energy and the object with low temperature has less thermal energy.
It is called thermal equilibrium. At thermal equilibrium, the two objects have the same temperature and there is no net flow of heat between them.
Two objects can have the same temperature but different thermal energies if they have different masses or specific heat capacities. The thermal energy depends not only on temperature but also on the amount of material and how easily it can absorb or release heat.
Heat is the thermal energy transferred between objects that have different temperatures. This transfer occurs due to a temperature gradient, moving from the object with higher temperature to the one with lower temperature until thermal equilibrium is reached.
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 rate at which thermal energy transfers between objects depends on various factors such as the temperature difference between the objects, the thermal conductivity of the materials involved, and the surface area of contact. In general, thermal energy transfer will continue until thermal equilibrium is reached, meaning both objects are at the same temperature.
It is called thermal equilibrium. At thermal equilibrium, the two objects have the same temperature and there is no net flow of heat between them.
Two objects can have the same temperature but different thermal energies if they have different masses or specific heat capacities. The thermal energy depends not only on temperature but also on the amount of material and how easily it can absorb or release heat.
Heat is the thermal energy transferred between objects that have different temperatures. This transfer occurs due to a temperature gradient, moving from the object with higher temperature to the one with lower temperature until thermal equilibrium is reached.
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.
thermal energy(heat) transfer to cooler objects...............................................................................................................
The rate at which thermal energy transfers between objects depends on various factors such as the temperature difference between the objects, the thermal conductivity of the materials involved, and the surface area of contact. In general, thermal energy transfer will continue until thermal equilibrium is reached, meaning both objects are at the same temperature.
No, there will only be a spontaneous transfer of heat if the objects are at different tempratures.No, there will only be a spontaneous transfer of heat if the objects are at different tempratures.No, there will only be a spontaneous transfer of heat if the objects are at different tempratures.No, there will only be a spontaneous transfer of heat if the objects are at different tempratures.
When objects with different temperatures touch, heat will flow from the hotter object to the cooler object until they reach thermal equilibrium. This process is known as thermal conduction. The rate of heat transfer depends on the temperature difference between the objects, their thermal conductivity, and the surface area of contact.
heat
You have to have two objects at different temperatures near each other, when two or more objects have the same temperature.
The term that describes the transfer of energy between objects with different average thermal kinetic energies is "heat transfer." Heat flows from an object with higher temperature to one with lower temperature until thermal equilibrium is reached.
thermal energy(heat) transfer to cooler objects...............................................................................................................