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A closed cubical box is made of perfectl...

A closed cubical box is made of perfectly insulating material and the only way for heat to enter or leave the box is through two solid cylindrical metal plugs, each of cross sectional area `12cm^(2)` and length `8cm` fixed in the opposite walls of the box. The outer surface of one plug is kept at a temperature of `100^(@)C` . while the outer surface of the plug is maintained at a temperature of `4(@)C` . The thermal conductivity of the material of the plug is `2.0Wm^(-1).^(@)C^(-1)` . A source of energy generating `13W` is enclosed inside the box. Find the equilibrium temperature of the inner surface of the box assuming that it is the same at all points on the inner surface.

Text Solution

Verified by Experts


Let `theta` be the temperature of inner surface of box.
Heat transfer per second through `A+` heat produced by source per second`=`Heat transfer per second through B
`implies((dH)/(dt))_A+36(cal)/(s)=((dH)/(dt))_B`
`implies(KA(100-theta))/(d)+36=(KA(theta-4))/(d)`
`impliesKA(theta-4-100+theta)=36xxd`
Now, `d=8cm`,`A=12cm^2`,`K=0.5 cal//s//^(@)C//cm`
`implies2theta-104=(36xx8)/(12xx0.5)impliestheta=76^@C`
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