(a) Explanation Given Info : Melting point of waxy material is 37.0 ° C , Latent heat of fusion of material is 205 kJ / kg , surface area of the insulation panel is 0.490 m 2 , thickness 9.50 cm, conductivity of the material 0.0120 W / m ⋅ °C , exterior temperature is 23.0 ° C for 12 h, and interior temperature is 16.0 ° C for 12 h. Formula to find rate at which energy is being transferred to the sample is, P = k A ( T h − T c ) L P is rate at which energy is being transferred, k is thermal coefficient of wax, A is the insulation panel, T h is the interior temperature, T c is the exterior temperature, L is the thickness of the insulation panel, Formula to calculate the heat energy lost by conduction is, Q = P 1 t + P 2 t Q is the heat energy lost by conduction through insulation, P 1 is the rate of heat lost by conduction for the first 12 h, P 2 is the rate of heat lost by conduction for the second 12 h, t is the time of heat transfer , Use k A ( T h − T c 1 ) L for P 1 and k A ( T h − T c 2 ) L for P 2 in the above equation to rewrite Q . Q = ( k A ( T h − T c 1 ) L ) t + ( k A ( T h − T c 2 ) L ) t = k A L t [ ( T h − T c 1 ) + ( T h − T c 2 ) ] Substitute 0.0120 J / s .m °C for k , and 0.490 m 2 for A , 9 (b) To determine Why the calculation can be done without knowing the mass of the test samples or of the insulation.

11th Edition

ISBN: 9781337741644

Author: SERWAY

Publisher: CENGAGE L

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Question

Chapter 11, Problem 70AP

(a)

To determine

The mass of waxy material required to conduct the bacteriological test.

(b)

To determine

Why the calculation can be done without knowing the mass of the test samples or of the insulation.

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Chapter 11, Problem 69AP

Chapter 11, Problem 71AP

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Chapter 11 Solutions

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The mass of waxy material required to conduct the bacteriological test.

Solution Summary: The author explains that the mass of waxy material required to conduct the bacteriological test is 0.457kg.

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The mass of waxy material required to conduct the bacteriological test.

Why the calculation can be done without knowing the mass of the test samples or of the insulation.

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Chapter 11 Solutions