A cubical ball is taken to a depth of 200m in a sea. The decrease in volume observed to be 0.1%. The bulk modulus of the ball is

If a rubber ball is taken down to a 100 m deep lake its volume is decreased by 0.1%. If g = 10 m//sec^(2) . Then the bulk modulus of elasticity is

Volume of 10^(-3)m^(3) water is subjected to a pressure of 10 atmosphere. The change in volume is 10^(-6)m^(3) . Find the bulk modulus of water. (Atomospheric pressure =1xx10^(5)Nm^(-2) )

When a rubber ball of volume V, bulk modulus .K. is taken to a depth .h. in water, then decrease in its volume is

Estimate the change in the density of water in ocean at a depth of 500 m below the surface. The density of water at the surface =1030 kgm^(-3) and the bulk modulus of water =2.2xx10^(9)Nm^(-2)

A sphere contracts in volume by 0.01% when taken to the bottom of sea 1km deep. If the density of water is lgm /cc Then the bulk modulus of water is

A gas follows a process TV^(n-1) = constant, where T = absolute temperature of the gas and V = volume of the gas. The bulk modulus of the gas in the process is given by

A solid ball is exactly fitted inside the cubical box of side 'a'. The volume of the ball is …

A spherical ball of volume 1000cm^(3) is subjected to a presure of 10 atmosphere. The change in volume is 10^(-8cm^(3). If the ball is made of iron, find its bulk modulus. ("1 atmoshphere"=1xx10^(5)Nm^(-2)).

A spherical ball of volume 1000 cm^3 is subjected to a pressure of 10 atmosphere. The change in volume is 10^(-2)cm^3 . If the ball is made of iron find its bulk modulus, (Atmospheric pressure = 1xx10^5 Nm^(-2) )