Why is conduction unlikely when ice is placed on a freezer shelf?

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Study for the Radiation and Heat Test. Prepare with flashcards and multiple choice questions, each with hints and explanations. Get ready for your exam!

Multiple Choice

Why is conduction unlikely when ice is placed on a freezer shelf?

Explanation:
Conduction requires a temperature difference between the two contacting bodies. Heat flows from the warmer to the cooler surface until both reach the same temperature. When ice sits on a freezer shelf, both are cooled to the same very low temperature, so once they equilibrate there’s essentially no temperature gradient across the interface. With no gradient to drive heat transfer, conduction is effectively negligible. There might be a brief, small amount of conduction during the initial equilibration, but it dies out once the temperatures match.

Conduction requires a temperature difference between the two contacting bodies. Heat flows from the warmer to the cooler surface until both reach the same temperature. When ice sits on a freezer shelf, both are cooled to the same very low temperature, so once they equilibrate there’s essentially no temperature gradient across the interface. With no gradient to drive heat transfer, conduction is effectively negligible. There might be a brief, small amount of conduction during the initial equilibration, but it dies out once the temperatures match.

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