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Question
Simone has a mug of hot tea at a temperature of 90°C. She sets the mug on a counter in a room with an air temperature of 30°C. What is most likely to happen to the temperature of the hot tea?(1 point)
Responses
The air will transfer thermal energy into the tea and will continue to transfer energy until they are both 90°C.
The air will transfer thermal energy into the tea and will continue to transfer energy until they are both 90°C.
The hot tea will transfer thermal energy into the air and will continue to transfer energy until they are both 90°C.
The hot tea will transfer thermal energy into the air and will continue to transfer energy until they are both 90°C.
The hot tea will transfer thermal energy into the air, and the energy transfer will continue until the tea is at room temperature.
The hot tea will transfer thermal energy into the air, and the energy transfer will continue until the tea is at room temperature.
The air will transfer thermal energy into the tea, and the energy transfer will continue until the tea is at room temperature.
The air will transfer thermal energy into the tea, and the energy transfer will continue until the tea is at room temperature.
u sure?
Yes, I am sure. When an object with a higher temperature is in contact with an object with a lower temperature, thermal energy will transfer from the hotter object to the cooler object until they reach thermal equilibrium (the same temperature). Therefore, in this case, the hot tea will transfer thermal energy to the air in the room until it reaches room temperature.
ARE YOU SURE?
Yes, I am sure. The hot tea will transfer thermal energy to the air in the room until it reaches room temperature.
The air will transfer thermal energy into the tea, and the energy transfer will continue until the tea is at room temperature.
The correct response is: "The hot tea will transfer thermal energy into the air, and the energy transfer will continue until the tea is at room temperature."
Explanation: In this scenario, the hot tea is at a temperature of 90°C while the air in the room is at a temperature of 30°C. When the hot tea is placed on the counter, it will transfer thermal energy to its surroundings, which includes the air in the room. The transfer of thermal energy between the tea and the air will result in the tea cooling down and the air heating up. This transfer will continue until both the tea and the air reach the same temperature, which would be the room temperature of 30°C. Therefore, the most likely outcome is that the hot tea will transfer thermal energy into the air, and the energy transfer will continue until the tea reaches room temperature.