One end of thermally insulated rod is ke...

One end of thermally insulated rod is kept at a temperature `T_(1)` and the other at `T_(2)`. The rod is composed of two section of length `l_(1)` and `l_(2)` thermal conductivities `k_(1)` and `k_(2)` respectively. The temerature at the interface of two section is

`(K_(2)l_(2)T_(1) + K_(1)l_(1)T_(2))//(K_(1)l_(1) + K_(2)l_(2))`

`(K_(2)l_(1)T_(1) + K_(1)l_(2)T_(2))//(K_(2)l_(1) + K_(1)l_(2))`

`(K_(1)l_(2)T_(1) + K_(2)l_(1)T_(2))//(K_(1)l_(2) + K_(2)l_(1))`

`(K_(1)l_(1)T_(1) + K_(2)l_(2)T_(2))//(K_(1)l_(1) + K_(2)l_(2))`

Text Solution

Verified by Experts

The correct Answer is:

Let the temperature of the interface be `T_(0)`.
Thermal current =`("Temperature difference")/("Thermal resitance")`
Thermal resistance = `(1)/(K)(l)/(A)`
`implies (T_(1) - T_(0))/(l_(1)//K_(1)A) = (T_(0)- T_(2))/(l_(2) //K_(2)A)`
`implies T_(0) = (K_(1)l_(2)T_(1) - K_(2)l_(1)T_(2))/(K_(1)l_(2) + K_(2)l_(1))`

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