200 W/m K, but the thermal conductivity of Rod 2,3-130 Two very long, slender rods of the same diameter and length are given. One rod (Rod 1) is made of aluminum and has a thermal conductivity kk2, is not known. To determine the thermal conductivity of Rod 2, both rods at one end are thermally attached to a metal surface which is maintained at a constant temperature Th Both rods are losing heatby convection, with a convection heat transfer coefficient h into the ambient air at Teg. The surface temperature of each rod is measured at various distances from the hot base surface. The measurements= 40 cm from the base is the same as that of the rod of unknown thermal conductivity (Rod 2) at x2 = 20 cm from the base. Determine thereveal that the temperature of the aluminum rod (Rod 1) at Xthermal conductivity k2 of the second rod (W/m K)FIGURE P3-130k=200 W/m KRod 11= 40 cmт,Tа)h, TRod 22= 20 cmT2(x

Answered: Image /qna-images/answer/950d2083-651c-4a21-a9e4-fed99ff5c493.jpg

Answered: 200 W/m K, but the thermal conductivity…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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1- Microwave radiation is incident on one side of a planar wall with a heat conductivity coefficient k. (x=0) -D°b=(x)b leads to volumetric heating. While this surface is 9(W/m²) microwave radiation is fixed. kept at a constant temperature To, the other surface at x=L is very well insulated. Determine the temperature distribution T(x) in terms of x, L, k, qo and To.
Please solve quickly
In the continuous regime, there is a constant heat generation of q = 3×107 W/m³ in a one-dimensional wall with a thickness of 20 mm. The heat conduction coefficient of the wall material is k = 32 W/ mK. The temperature Ts on the wall surface is Ts1 = 127 ° C and Ts on the other surface is Ts2= 27 ° C. So, find where the highest temperature occurs in the wall?
A 5cm copper plate has a thermal conductivity of 395 ?/m-k is used as a heat sink for a semiconductor. A 1mm layer of thermal paste lies in between the two and it has a thermal conductivity of 10 ? /m-k. Solve for the heat transferred at a 5cmx5cm area if the semiconductor is 80C, while the copper plate has a temperature of 30C since it is exposed to ambient air temperature.
The temperature distribution in a wall (conductivity k=6-W/m2C, thickness L=10-cm) is given as T(x)=(-454 x2+53 x+ 17) (in °C) Assuming unit wall surface area, calculate the rate of heat loss from both sides of the wall in Watt.
Two approaches used in development of the thermal resistance network in the x-direction for multi-dimensional problems are to assume any plane wall normal to the x-axis to be isothermal and to assume any plane parallel to the x-axis to be adiabatic. True or False True False

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