Answer:
Step-by-step explanation:
In this scenario, the house can be considered as a thermodynamic system, and the transfer of energy between the system and its surroundings occurs through heat transfer.
On a hot day, the temperature inside the house is higher than the temperature outside, causing heat to flow from the house to the environment in order to balance the temperatures. This heat transfer occurs due to the difference in temperature between the house and the outside environment, and is facilitated by the air conditioning system.
The air conditioning system works by removing heat from inside the house and expelling it to the outside environment, thus cooling the air inside the house. This process of removing heat from the house and expelling it to the outside is a transfer of energy from the system (the house) to its surroundings.
The heat transfer from the house to the outside environment continues until the temperature inside the house reaches a state of thermal equilibrium with the temperature outside, at which point the transfer of heat stops. The air conditioning system continues to operate, however, to maintain the desired temperature inside the house by continuously removing heat and expelling it to the outside environment.
In summary, the transfer of energy between the house (the system) and its surroundings occurs through heat transfer, with heat flowing from the house to the outside environment due to the difference in temperature, and the air conditioning system facilitating this transfer by removing heat from inside the house and expelling it to the outside environment.