When a wire of length 10 m is subjected to a force of 100 N along its length, the lateral strain produced is `0.01 xx 10^3 m`. The Poisson's ratio was found to be 0.4. If the area of cross-section of wire is 0.025 m^2, its Young's modulus is

When a wire of length 10 m is subjected to a force of 100 N along its length, the lateral strain produced is 0.01 xx 10^(-3) . The Poisson's ratio was found to be 0.4 . If the area of cross-section of wire is 0.025 m^2 , its Young's modulus is

When a wire of length 10m is subjected to a force of 100N along its length, the lateral strain produced is 0.01xx10^(-3) . The poisson's ratio was found to be 0.4 . If area of cross section of wire is 0.25 m^(2) , its young's modulus is

When a wire is subjected to a force along its length, its length increases by 0.4% andits radius decreaes by 0.2%. Then, the poisson's ratio of the material of the wire is

3 m long copper wire is stretched to increase its length by 0.3 cm. The lateral strain produced in the wire is,

When a wire subjected to a froce along its length, its length increases by 0.4% and its radius decreases by 0.2% then the Poisson's ratio of the material of the wire is

An elongation of 0.2% in a wire of cross section 10^(-4)m^(2) causes tension 1000 N. Then its young's modulus is

A elongation of 0.1% in a wire of cross-sectional area 10"6 m2 causes tension 100 N. The young’s modulus is

A copper wire of length 3m and diameter 1mm is stretched to increase its length by 0.3cm. What is the lateral contraction, if the Poisson's ratio for copper is 0.25?

A force of 100 N produces a change of 0.01% in a length of wire of area of cross -section 1.0 mm^2 . Young's modulus of the wire is