A resistor has initial resistance R(0) a...

A resistor has initial resistance `R_(0)` at `0^(@)C` now it is connected to an ideal battery of constant `emf=v` if the temperature co-efficient of resistance is `alpha`, then after how much time will its temperature be `T^(@)C` mass of the wire is m, specific heat capacity of the wire is S. (Assume the resistance veries linearly with temperature Also neglect heat loss the surrounding)

Similar Questions

Explore conceptually related problems

For a body of mass m and specific heat capacity s, how much heat is required to increase its temperature by t?

The resistance R_(o) and R_(t) of a metallic wire at temperature 0^(@)C and t^(@)C are related as ( alpha is the temperature co-efficient of resistance).

The temperature coefficient of resistance of a wire is 0.00125 per ""^(@)C . At 300 K, its resistance is 1Omega . The resistance of the wire will be 2Omega at

The temperature co-effcient of resistance of a wire is 0.00125^(@)C. At 500 K, its resistance is 1Omega. The resistance of the wire will be 2Omega at

A metallic wire has a resistance of 3.0 Omega at 0^@C and 4.8 Omega at 150^@C . Find the temperature coefficient of resistance of its material.

The temperature coefficient of resistance of a wire is 0.00125 per ^@C . At 300K, its resistance is 1 ohm. This resistance of the wire will be 2 ohm at.

A wire has resistance of 2.0 Omega at 25^@ C and 2.5 Omega at 100^@ C . Calculate the temperature coefficient of resistance of the wire.

A wire has a resistance of 6 Omega at 30^@C and 6.5 Omega at 100^@C . Determine the temperature co-efficient of resistance of the wire. What will be resistance of a wire at 0∘C?

Similar Questions

Recommended Questions