369724 The compressibility of water is \(6 \times {10^{ - 10}}\;{N^{ - 1}}\;{m^2}\). If one litre is subjected to a pressure of \(4 \times {10^7}N{m^2}\), the decrease in its volume is

369725 Statement A :
The strain produced by a hydraulic pressure is volumetric in nature
Statement B :
It is a ratio of change in volume \(\Delta V\) to the original volume \(V\).

369726 The compressibility of water is \(5 \times {10^{ - 10}}\;{m^2}/N.\) Pressure of \(15 \times {10^6}\;Pa\) is applied on \(100\;mL\) volume of water. The change in the volume of water is

369727 The average depth of indian Ocean is about \(3000\;m\). The dfractional compression, \(\dfrac{\Delta V}{V}\) of water at the bottom of the ocean is (Given: Bulk modulus of the wear \( = 2.2 \times {10^9}\;N/{m^{ - 2}}\) and \(\left. {g = 10m{s^{ - 2}}} \right)\)

369724 The compressibility of water is \(6 \times {10^{ - 10}}\;{N^{ - 1}}\;{m^2}\). If one litre is subjected to a pressure of \(4 \times {10^7}N{m^2}\), the decrease in its volume is

369725 Statement A :
The strain produced by a hydraulic pressure is volumetric in nature
Statement B :
It is a ratio of change in volume \(\Delta V\) to the original volume \(V\).

369726 The compressibility of water is \(5 \times {10^{ - 10}}\;{m^2}/N.\) Pressure of \(15 \times {10^6}\;Pa\) is applied on \(100\;mL\) volume of water. The change in the volume of water is

369727 The average depth of indian Ocean is about \(3000\;m\). The dfractional compression, \(\dfrac{\Delta V}{V}\) of water at the bottom of the ocean is (Given: Bulk modulus of the wear \( = 2.2 \times {10^9}\;N/{m^{ - 2}}\) and \(\left. {g = 10m{s^{ - 2}}} \right)\)

369724 The compressibility of water is \(6 \times {10^{ - 10}}\;{N^{ - 1}}\;{m^2}\). If one litre is subjected to a pressure of \(4 \times {10^7}N{m^2}\), the decrease in its volume is

369725 Statement A :
The strain produced by a hydraulic pressure is volumetric in nature
Statement B :
It is a ratio of change in volume \(\Delta V\) to the original volume \(V\).

369726 The compressibility of water is \(5 \times {10^{ - 10}}\;{m^2}/N.\) Pressure of \(15 \times {10^6}\;Pa\) is applied on \(100\;mL\) volume of water. The change in the volume of water is

369727 The average depth of indian Ocean is about \(3000\;m\). The dfractional compression, \(\dfrac{\Delta V}{V}\) of water at the bottom of the ocean is (Given: Bulk modulus of the wear \( = 2.2 \times {10^9}\;N/{m^{ - 2}}\) and \(\left. {g = 10m{s^{ - 2}}} \right)\)

369724 The compressibility of water is \(6 \times {10^{ - 10}}\;{N^{ - 1}}\;{m^2}\). If one litre is subjected to a pressure of \(4 \times {10^7}N{m^2}\), the decrease in its volume is

369725 Statement A :
The strain produced by a hydraulic pressure is volumetric in nature
Statement B :
It is a ratio of change in volume \(\Delta V\) to the original volume \(V\).

369726 The compressibility of water is \(5 \times {10^{ - 10}}\;{m^2}/N.\) Pressure of \(15 \times {10^6}\;Pa\) is applied on \(100\;mL\) volume of water. The change in the volume of water is

369727 The average depth of indian Ocean is about \(3000\;m\). The dfractional compression, \(\dfrac{\Delta V}{V}\) of water at the bottom of the ocean is (Given: Bulk modulus of the wear \( = 2.2 \times {10^9}\;N/{m^{ - 2}}\) and \(\left. {g = 10m{s^{ - 2}}} \right)\)