A spherical ball contracts in volume by `0.01%` when subjected to a normal pressure of 100 atm. The Bulk modulus of its material is

A spherical ball contracts in volume by 0.01 % when subjected to a normal uniform pressure of 100 atmosphers. The bulk modulus of its material in dynes/ cm^(2) is

A spherical ball contracts in volume by 0.02%, when subjected to a normal uniform pressure of 50 atmosphere. The Bulk modulus of its material is

A spherical ball contracts in volume by 0.02% when subjected to a normal uniform pressure of 200 atmospheres. Then Bulk modulus (in N//m^(2) ) of the material of the ball is (Atomospheric pressure =10^(5)N//m^(2) )

A spherical ball contracts in volume by 0.01% when subjected to a normal uniform pressure of 100 atmospheres. Calculate the bulk modulus of the meterial.

A spherical ball contracts in volume by 0.05% , when subjected to a normal uniform pressure. Calculate the volume strain produced in spherical ball.

A spherical ball contract in volume by 0.5%,when subject to a normal uniform pressure Calculate the volumetric strain produced in spherical ball

A sphere contracts in volume by 0.01% when taken to the bottom of sea 1km keep. The bulk modulus of the material of the sphere is (Given density of sea water may be taken as 1.0xx10^3kgm^-3 ).

A spherical ball contracts in radius by 2%, when subjected to a normal uniform force. The volumetric strain produced in ball is

A sphere contract in volume by 0.1% when taken to bottom of the sea 1 km deep. Find the bulk modulus of the material of the sphere. Density of sea water = 10^(3) kg //m^(3) .

Compute the fractional change in volume of a glass slab, when subjected to a hydraulic pressure of 10 atmosphere. Bulk modulus of elasticity of glass = 37 xx 10^(9) Nm^(-2) and 1 atm = 1.013 xx 10^(5)Pa .