The temperature coefficient of resistance of a metal is `0.004 ^@C^-1`. If a wire has resistance `1 Omega` at `0^@C` then what will be the value of that resistance at `100^@C`?

What is the unit of temperature coefficient of resistance?

The temperature coefficient of resistance of copper is 42.5times10^(-4^@)C^-1 . The resistance of a coll of copper at 30^@C is 8Omega .What is the resistance at 100^@C ?

The coefficient of linear equation of copper is 17times10^-6//^@C and its temperature coefficient of resistance is 42.5times 10^(-4^@)C^-1 . IF the resistivity of copper at 0^@C be 1.55 times 10^-6 Omega cm. then what will be its resistivity at 100^@C ?

What is the nature of temperature coefficient of resistance of a semiconductor?

According to the definition of International ohm, the resistance of a uniform column of mercury of length 106.3 cm and of mass 14.4521 g . When kept is melting ice, becomes 1 Omega (i) IF the temperature coefficient of resistance of mercury be 9 times 10^(-4^@)C^-1 . then what will be the resistance of that mercury column in boiling water? (ii) IF the density of mercury be 13.59 g. cm^-3 and its coefficient of volume expansion be 1.8 times 10^(-4^@)C^-1 . then what will be the resistivity of mercury at the temperature of boiling water.

The temperature coefficient of resistance for the material of a conductor is 38 times 10^(-4^@)C^-1 .What will be its value i n^@F^-1 ? Range of rise in temperature can be assumed small.

A galvanometer of resistance 8 Omega . is shunted with 2 Omega resistance. If total current is 1 A, then what will be the shunt current?

Emf, of a cell is 1.5 V and its internal resistance is 1 Omega When the cell sends current in an external circuit having resistance 2 Omega , then what will be the value of lost volt?