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Assume that you need to transfer 4628320 J of energy in ten minutes between the two reservoirs. To enhance the rate of energy transfer, a steel rod (k = 43 W/m-K) of the same length is added between the
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Assume that you need to transfer 4628320 J of energy in ten minutes between the two reservoirs. To enhance the rate of energy transfer, a steel rod (k = 43 W/m-K) of the same length is added between the two reservoirs. What should the cross-sectional area of the steel rod be in order to achieve the proper rate of energy transfer?

User Vladimir Sotnikov
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5.8k points

1 Answer

7 votes

Answer:


A = (179.4)/((dT)/(dx))

Step-by-step explanation:

As we know that thermal conduction of heat is given by the formula


(dQ)/(dt) = (kA)/(L)(T_2 - T_1)

now we have


(dQ)/(dt) = (4628320)/(10(60))


(dQ)/(dt) = 7713.87 Watt

now we also know that

k = 43 W/m-k

now we have


7713.87 = ((43)A)/(dT){dx}

so we have


A = (179.4)/((dT)/(dx))

here we know that dT/dx is temperature gradient of the rod which is ratio of temperature difference of two ends of the rod and length of the rod.

User Till Ulen
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6.2k points
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