Determine the temperature distribution (nodal temperatures) of the structure shown in the figure using two equal-length, linear finite elements with the cross-sectional area of 1 m². The thermal conductivity is 10 W/m/°C. The left side is maintained at 300 °C. The right side is subjected to heat loss by convection with h = 1 W/m²/°C and T₁ = 30 °C. All other sides are insulated. T= 300 °C T₁ Insulated 20 m T₂ T3 T₁= 30 °C

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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Determine the temperature distribution (nodal temperatures)
of the structure shown in the figure using two equal-length,
linear finite elements with the cross-sectional area of 1 m².
The thermal conductivity is 10 W/m/°C. The left side is
maintained at 300 °C. The right side is subjected to heat loss
by convection with h = 1 W/m²/°C and T₁ = 30 °C. All other
sides are insulated.
T= 300 °C
Exercise
T₁
Insulated
20 m
T₂
T3
T₁= 30 °C
43
Transcribed Image Text:Determine the temperature distribution (nodal temperatures) of the structure shown in the figure using two equal-length, linear finite elements with the cross-sectional area of 1 m². The thermal conductivity is 10 W/m/°C. The left side is maintained at 300 °C. The right side is subjected to heat loss by convection with h = 1 W/m²/°C and T₁ = 30 °C. All other sides are insulated. T= 300 °C Exercise T₁ Insulated 20 m T₂ T3 T₁= 30 °C 43
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