The resistance of a wire is `10Omega`. Its length is increased by `10%` by stretching. The new resistance will now be

The resistance of a wire is 10 Omega . Its length is increased by 10% by stretching. The new resistance will now be

A metal wire has a resistance of 35Omega . If its length is increased to double by drawing it, then its new resistance will be

A wire has a resistance of 10Omega . It is stretched by 1//10 of its original length. Then its resistance will be

The resistance of a wire is R ohm. If it is melted and stretched to n times its original length, its new resistance will be

Consider a wire of length l, area of cross section A, and resistivity rho with resistance 10 Omega . Its length is increased by applying a force, and it becomes four times of its original value. Find the changed resistance of the wire.

The resistance of a wire is R ohm. What will be its new resistance if it is stretched to n times its original length ?

A wire of resistance x ohm is draw out, so that its length in increased to twice its original length, and its new resistance becomes 20 Omega then x will be .

The resistance of a wire is 'R' ohm. If it is melted and stretched to n times its origianl length, its new resistance will be (a) nR (b) R/n (c) n^(2)R (d) R/(n^(2))

The resistance of a wire at 20^(@)C is 20Omega and at 500^(@)C is 60Omega . At which temperature its resistance will be 25Omega ?

Consider a wire of length l , area of cross-section A and resistivity rho and resistance (1)/(5) Omega . Its length is increased by applying a force on I and its length increases by four times of its original length. Find the new resistance in ohms of the wire.