The resistance of a conductor at 20 ^@C"is" 6.3 Omega and "at" 100^@C it is 7.5 Omega . Calculate the resistance of the conductor at 0^@C and its temperature coefficient of resistance .

The resistance of a conductor at 20 ^@C"is" 6.3 Omega and "at" 100^@C

1.	The resistance of a conductor at 20 ^@C"is" 6.3 Omega and "at" 100^@C it is 7.5 Omega . Calculate the resistance of the conductor at 0^@C and its temperature coefficient of resistance .
Answer» Solution :Temperature dependence of resistance is given by `R= R_(0) (1 + alpha t)`. On SUBSTITUTING values we can write the following : `6.3= R_(0) (1 + 20 alpha)` …(i) `7.5 = R_(0) (1 + 100 alpha)` …(ii) Divding equations (i) and (ii) we get `(6.3)/(7.5) = (1 + 20 alpha)/(1 + 100 alpha) rArr 6.3 + 630 alpha = 7.5 + 150 alpha` `rArr 480 alpha = 1.2 rArr alpha = (1.2)/(480) = 0.0025" PER " ""^(@)C` On substituting calculated `alpha` in equation (i) we get `R_(0) = (6.3)/(1 + 20 alpha) = (6.3)/(1 + 20 xx 0.0025) = 6 Omega`

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The resistance of a conductor at 20 ^@C"is" 6.3 Omega and "at" 100^@C it is 7.5 Omega . Calculate the resistance of the conductor at 0^@C and its temperature coefficient of resistance .

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