Young's modulus of rubber is `10^(4) N//m^(2)` and area of cross section is `2 cm^(2)`. If force of `2 xx 10^(5) dyn` is applied along its length, then its final length becomes

Young 's modulus of steel is 2.0 xx 10^(11)N m//(2) . Express it is "dyne"/cm^(2) .

Calculate the work done in streching a steel wire of Young's modulus of 2xx10^(11) Nm^(-2) mass of 40kg,length of 200 cm and area of cross-section is 0.06 cm^(2) slowly applied without the elastic limit being reached.

The length of a rod is 20 cm and area of cross-section 2 cm^(2) . The Young's modulus of the material of wire is 1.4 xx 10^(11) N//m^(2) . If the rod is compressed by 5 kg-wt along its length, then increase in the energy of the rod in joules will be

Young's modulus of steel is 19xx10^10 N/m^2 . Expres it indyne/cm^2. Here dyne is the CGS unit of force.

Young.s modulus of a wire is 2 xx 10^(11)N//m^(2) . If a stress of 2 x 108 N/m2 is applied at the free end of a wire, find the strain in the wire.

A bar of mass m and length l is hanging from point A as shown in the figure . If the Young's modulus of elasticity of the bar is Y and area of cross - section of the wire is A, then the increase in its length due to its own weight will be

The Young's modulus of brass is 9.1 xx 10^(10) N //m^(2) and its rigidity modulus is 3.5 xx 10^(10) N //m^(2) . Calculate its Poisson's ratio ?

If the temperature of a wire of length 2 m and area of cross-section 1 cm^2 is increased from 0^(@) C to 80^(@) C and is not allowed to increase in length, then force required for it is (Y= 10^10 N//m^2, prop=10^-6//^(@)C)

A 50 kg motor rests on four cylindrical rubber blocks. Each block has a height of 4 cm and a cross-sectional area of 16 cm^(2) . The shear modulus of rubber is 2 xx 10^(6) N//m^(2) . A sideways force of 500 N is applied to the motor. The distance that the motor moves sideways is

A wire of length 1 m and area of cross section 2xx10^(-6)m^(2) is suspended from the top of a roof at one end and a load of 20 N is applied at the other end. If the length of the wire is increased by 0.5xx10^(-4)m , calculate its Young’s modulus (in 10^(11)N//m^(2)) .