one object loses energy then the other one gains 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.
When two objects at the same temperature are in contact, no heat will transfer between them as there is no temperature difference driving the heat transfer. This is known as thermal equilibrium, where the objects reach a balance in their thermal energies.
The point at which the net flow of thermal energy between two objects at the same temperature is zero is when they reach thermal equilibrium. At this point, both objects are at the same temperature and there is no longer a temperature difference to drive heat transfer between them.
have the same temperature and there is no net heat transfer between them.
The temperature of the two objects must be the same in order to stop the transfer of energy between them. Energy will transfer as long as there is a temperature difference between the objects.
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.
When two objects at the same temperature are in contact, no heat will transfer between them as there is no temperature difference driving the heat transfer. This is known as thermal equilibrium, where the objects reach a balance in their thermal energies.
The point at which the net flow of thermal energy between two objects at the same temperature is zero is when they reach thermal equilibrium. At this point, both objects are at the same temperature and there is no longer a temperature difference to drive heat transfer between them.
have the same temperature and there is no net heat transfer between them.
The temperature of the two objects must be the same in order to stop the transfer of energy between them. Energy will transfer as long as there is a temperature difference between the objects.
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.
Yes, two objects can have the same temperature but different amounts of mass. Temperature is a measure of the average kinetic energy of particles in an object, while mass is the amount of matter in an object. So, it is possible for objects with different masses to have the same kinetic energy and therefore the same temperature.
Yes, two objects can have the same temperature but different heat because heat depends not only on temperature but also on the mass and specific heat capacity of the objects. Objects with different masses or specific heat capacities can have different amounts of heat energy even if they are at the same temperature.
When two objects at the same temperature are touching each other, there is no net change in either object's thermal energy. This means that there is no overall transfer of heat energy between the objects as they are in thermal equilibrium.
The final temperature of the two objects will be the same once thermal energy has been transferred between them.
Energy is transferred as heat between two objects at the same temperature due to thermal equilibrium. In this state, there is no temperature difference driving heat flow, so heat transfer still occurs to maintain equilibrium between the two objects.
The object with the lower average temperature will take heat from the other object until both objects have the same temperature.