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# In a grid of wires, the temperature at exterior mesh poins is maintained constant values as shown in the figure. When the grid is in thermal equilibrium, the temperature at each interior mesh point is the average of the

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## In a grid of wires, the temperature at exterior mesh poins is maintained constant values as shown in the figure. When the grid is in thermal equilibrium, the temperature at each interior mesh point is the average of the temperatures at the four adjacent points. For instance, T2+T3 +0-140 T₁ = Find the temperatures T₁, T2, T3, T4, when the grid is in thermal equilibrium. T₁ = T₂ = T3 ТА 4 In a grid of wires, the temperature at exterior mesh poins is maintained constant values as shown in the figure. When the grid is in thermal equilibrium, the temperature at each interior mesh point is the average of the temperatures at the four adjacent points. For instance, T2+T3 +0-140 T₁ = Find the temperatures T₁, T2, T3, T4, when the grid is in thermal equilibrium. T₁ = T₂ = T3 ТА 4 In a grid of wires, the temperature at exterior mesh poins is maintained constant values as shown in the figure. When the grid is in thermal equilibrium, the temperature at each interior mesh point is the average of the temperatures at the four adjacent points. For instance, T2+T3 +0-140 T₁ = Find the temperatures T₁, T2, T3, T4, when the grid is in thermal equilibrium. T₁ = T₂ = T3 ТА 4 -140 320 -140 80 13 11 TA T2 20 8 20 -140 320 -140 80 13 11 TA T2 20 8 20 -140 320 -140 80 13 11 TA T2 20 8 20

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**Related Book For**

## Fundamentals Of Momentum Heat And Mass Transfer

ISBN: 9781118947463

6th Edition

Authors: James Welty, Gregory L. Rorrer, David G. Foster

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