The resistance of a wire at room temperature `30^@C` is found to be `10 Om`now to increase the resistance by 10% the temperature of the wire must be [the temperature coefficient of resistance of the material of the wire is 0.002 per `@C`]

The resistance of a wire at room temperature 30^(@)C is found to be 10 Omega . Now to increase the resistance by 10% , the temperature of the wire must be [ The temperature coefficient of resistance of the material of the wire is 0.002 per .^(@)C ]

The resistances of a wire at temperatures t^(@)C and 0^(@)C are releated by

A wire has a resistance of 3.1 Omega at 30°C and a resistance 4.5 Omega at 100°C. The temperature coefficient of resistance of the wire

A standard coil marked 5 Omega is found to have a resistance of 5.128 Omega at 30^@C . Calculate the temperature at which the marking is correct. The temperature coefficient of resistance of the material of the coil is .0042^@C^(-1) .

A standard coil marked 2 Omega is found to have a resistance of 2.118 Omega " at " 30^(@)C . Calculate the temperature at which the marking is correct. The temperature coefficient of the resistance of the material of the coil is 0.0042 .^(@)C^(-1) .

A wire has a resistance of 2.1 Omega at 300 K and a resistance of 2.7 Omega at 373 K. Determine the temperature coefficent of resistance of the material.

The ratio of the resistances of a conductor at a temperature of 15^(@)C to its resistance at a temperature of 37.5^(@)C is 4:5 . The temperature coefficient of resistance of the conductor is

A wire has a resistance of 2.5Omega at 28^(@)C and a resistance of 2.9Omega at 100^(@)C . The temperature coefficient of resistivity of material of the wire is