If the temperature gradient doubles in Fourier's law, how does Qdot change?

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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

If the temperature gradient doubles in Fourier's law, how does Qdot change?

Explanation:
Fourier's law shows heat transfer rate is directly proportional to the temperature gradient. In one-dimensional steady conduction with constant k and cross-sectional area, Qdot = -k A (dT/dx). The minus sign indicates direction from hot to cold, so focus on the magnitude: Qdot ∝ dT/dx. If the temperature gradient doubles, the driving force for heat flow doubles, so the amount of heat transferred per unit time also doubles. Therefore the correct outcome is that Qdot increases by a factor of two.

Fourier's law shows heat transfer rate is directly proportional to the temperature gradient. In one-dimensional steady conduction with constant k and cross-sectional area, Qdot = -k A (dT/dx). The minus sign indicates direction from hot to cold, so focus on the magnitude: Qdot ∝ dT/dx. If the temperature gradient doubles, the driving force for heat flow doubles, so the amount of heat transferred per unit time also doubles. Therefore the correct outcome is that Qdot increases by a factor of two.

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