Physics
Physics
3rd Edition
ISBN: 9781259233616
Author: GIAMBATTISTA
Publisher: MCG
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Chapter 14, Problem 59P

(a)

To determine

The rate of heat flow through the wall.

(a)

Expert Solution
Check Mark

Answer to Problem 59P

The rate of heat flow through the wall is 320W.

Explanation of Solution

Write the expression for the thermal resistance foe the material.

RWood=dWKWA . (I)

Here, Rwood is the thermal resistance of the wood, dW is the thickness of the wood, KW thermal conductivity of the wood, A is the area of cross section.

Write the expression for the thermal resistance of the insulation.

Rinsulation=diKiA . (II)

Here, Ri is the thermal resistance of the insulation, di is the thickness of the insulation, KW thermal conductivity of the insulation, A is the area of cross section.

Write the expression for the rate of heat of flow.

=ΔTRW+Ri                                                                                                            (III)

Here, is the rate of heat flow, ΔT is the change in temperature, RW is the thermal resistance of the wood, Ri is the thermal resistance of the insulation.

Substitute equation I and II in equation III,

=AΔTdWkW+diki=lb(T2T1)dWkW+diki (IV)

Conclusion:

Substitute 2.74m for l, 3.66m for b, 23.0°C for T1, 5.00°C for T2, 1.00cm for dW, 3.00cm for d, 0.13W/mK for kW and 0.038W/mK for ki in the above equation IV to find .

=(2.74m)(3.66m)[23.0°C(5.00°C)]1.00cm×1m102cm0.13W/(mK)+3.00cm×1m102cm0.038W/(mK)=320W

Therefore, The rate of heat flow through the wall is 320W.

(b)

To determine

The amount of heat flows out of the wall.

(b)

Expert Solution
Check Mark

Answer to Problem 59P

The amount of heat flows out of the wall is 18kW.

Explanation of Solution

Write the rate of heat flow.

g=ΔTRg (V)

Here, g is the rate of heat flow, ΔT is the change in temperature, Rg is the thermal resistance of the glass.

Write the expression for the thermal resistance of the glass.

Rglass=dgKgA . (VI)

Here, Rglass is the thermal resistance of the glass dglass is the thickness of the glass,  Kg thermal conductivity of the glass, A is the area of cross section.

Substitute equation VI in equation V,

g=AΔTdgKg=KgAΔTdg

Write the expression for the total rate of heat flow.

total=KgAΔTdg+2

Here, total is the total rate of heat flow,

Conclusion:

 Substitute 0.63W/mK for Kg, 2.74m for l, 3.66m for b, 23.0°C for T1, 5.00°C for T2 and 0.500cm for dg In the above equation to find total.

total=0.63W/mK(1/2)(2.74m)(3.66m)(23.0°C(5.00°C))0.500cm×1m102cm=18kW

Therefore, the amount of heat flows out of the wall is 18kW.

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Chapter 14 Solutions

Physics

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