The picture below shows two flasks, one with hot water and one with room temperature water, which are connected by a conductive metal bar.
In which direction does the thermal energy between the flasks flow?
(1 point)
Responses
Thermal energy flows from the flask with room temperature water to the flask with hot water.
Thermal energy flows from the flask with room temperature water to the flask with hot water.
Thermal energy does not flow between the two flasks.
Thermal energy does not flow between the two flasks.
Thermal energy flows from the flask with hot water to the flask with room temperature water.
Thermal energy flows from the flask with hot water to the flask with room temperature water.
Thermal energy flows equally between the two flasks.
Thermal energy flows from the flask with hot water to the flask with room temperature water.
Thermal energy flows from the flask with hot water to the flask with room temperature water.
Thermal energy flows from the flask with hot water to the flask with room temperature water.
To understand why, we can refer to the concept of heat transfer by conduction. Conduction is the transfer of thermal energy between two objects that are in direct contact with each other. In this case, the two flasks are connected by a conductive metal bar, which allows the transfer of thermal energy through conduction.
Hot water has a higher temperature than room temperature water. According to the principle of heat transfer, heat always moves from areas of higher temperature to areas of lower temperature. This means that thermal energy will flow from the flask with hot water to the flask with room temperature water, until both flasks reach an equal temperature through the process of thermal equilibrium.
Therefore, the correct answer is: Thermal energy flows from the flask with hot water to the flask with room temperature water.