A mass of 0.5 kg is suspended from wiere, then length of wire increase by 3 mm then work done

When a load of 10 kg is suspended on a metallic wire, its length increase by 2 mm. The force constant of the wire is

When a load of 10 kg is suspended on a metallic wire, its length increase by 2 mm. The force constant of the wire is

A mass m is suspended from a wire . Change in length of the wire is Deltal . Now the same wire is stretched to double its length and the same mass is suspended from the wire. The change in length in this case will become (it is suspended that elongation in the wire is within the proportional limit)

A mass m is suspended from a wire . Change in length of the wire is Deltal . Now the same wire is stretched to double its length and the same mass is suspended from the wire. The change in length in this case will become (it is suspended that elongation in the wire is within the proportional limit)

A mass m is suspended from a wire . Change in length of the wire is Deltal . Now the same wire is stretched to double its length and the same mass is suspended from the wire. The change in length in this case will become (it is suspended that elongation in the wire is within the proportional limit)

When a load of 10 kg is suspended from one end of a wire of length 1m, it increases in length by 0.1 cm. IF the Poisson's ratio for the material of the wire is 1/3 , then calculate the change in volume of the wire, cross-sectional area of the wire =0.1 cm^2 .

If a load of 9 kg is suspended on a wire, the increase in length is 4.5 mm . The force constant of the wire is

A load of mass M kg is suspended from a steel wire of length 2 m and radius 1.0 mm in Searle's apparatus experiment. The increase in length produced in the wire is 4.0 mm , Now the loads is fully immersed in a liquid of relative density 2. The relative density of the material of load is 8. The new value of increase in length of the steel wire is :

A load of mass M kg is suspended from a steel wire of length 2 m and radius 1.0 mm in Searle's apparatus experiment. The increase in length produced in the wire is 4.0 mm , Now the loads is fully immersed in a liquid of relative density 2. The relative density of the material of load is 8. The new value of increase in length of the steel wire is :