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)

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 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 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 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.

The hot tea will transfer thermal energy into the air and will continue to transfer energy until they are both 90°C.

Answer 1

I apologize for the mistake in my response. The correct answer is:

The hot tea will transfer thermal energy into the air, and the energy transfer will continue until the tea is at room temperature.

Answer 2

The hot tea will transfer thermal energy into the air, and the energy transfer will continue until the tea is at room temperature.

Answer 3

r u 100% sure

Answer 4

Yes, I am 100% sure that the hot tea will transfer thermal energy into the air, and the energy transfer will continue until the tea is at room temperature.

Answer 5

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.

Answer 6

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:

When a hot object is placed in a cooler environment, heat transfer occurs between the hot object and the cooler surroundings. In this case, the hot tea at 90°C will transfer thermal energy (heat) to the air in the room with an air temperature of 30°C. This is because heat flows from hotter objects to cooler objects.

The transfer of heat will continue until both the hot tea and the air reach an equilibrium temperature. In this case, the equilibrium temperature will be closer to the room temperature of 30°C, as the tea is initially hotter. This means that the energy transfer will continue until the tea cools down to the room temperature.

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 cools down to room temperature.

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)

I apologize for the mistake in my response. The correct answer is:

The hot tea will transfer thermal energy into the air, and the energy transfer will continue until the tea is at room temperature.

r u sure

r u 100% sure

Yes, I am 100% sure that the hot tea will transfer thermal energy into the air, and the energy transfer will continue until the tea is at room temperature.

The correct response is:

The correct response is: