To lift a load by a metallic rope, its radius of cross-section should be

Choose correct alternative. The wire of length L and resistance R isstretched so that its radius of cross-section is halved. What is its new resistance?

Two wires A and B are stretched by the same load. If the area of cross-section of wire 'A' is double that of 'B,' then the stress on 'B' is

The resistance of a conductor of length x is r. If its area of cross section is a, what is its resistivity? What is its unit?

Two wires W_(1) and W_(2) are made of same material and have the same length. The radius of cross-section of W_(2) is twice that of W_(1). Same load is suspended from both of them. If the strain in W_(1) is 4, then that in W_(2) will be

A force of 400 kg. weight can break a wire. The force required to break a wire of double the area of cross-section will be

The increase in energy of a metal bar of length L and cross-sectional area A when compressed with a load M along its length is (where, Y= Young's modulus of the material of metal bar)

A metallic rod breaks when strain produced is 0.2% . The Young's modulus of the material of the rod is 7xx10^(9)N//m^(2) . What should be its area of cross-section to support a load of 10^(4)N ?

The speed of a transverse wave along a uniform metal wire, when it is under a tension of 1000 g wt is 68m/s .If the density of metal is 7900 kg/m^3 , find the area of cross section of the wire.

Two similar wires under the same load yield elongation of 0.1 mm and 0.05 mm respectively. If the area of cross-section of the first wire is 4 mm^(2) , then the area of cross-section of the second wire is

A rod has length l density of material D and area of cross section is A. If it rotates about its axis perpendicular to the length and passing through its centre, then its kinetic energy of rotation will be