Find the decrease in the volume of a simple of water from the following data. Initial volume `=2000 cm^(-2)` , initial pressure `=10^(5) Nm^(-2)` , final pressure `=10^(6) N^(-1)m^(2)`.

Find the decrease in the volume of a sample of water from the following data. Initial volume =1000 cm^3 initial pressure =10^5Nm^-2, final pressure =10^6Nm^-2 , compressibility of water =50xx10^-11m^2N^-1 .

A quantity of a substance in a closed system is made to undergo a reversible process from an initial volume of 3 m^(3) and initial pressure 10^(5) N//m^(2) to a final volume of 5m^(3) . If the pressure is proportional to the square of the volume (i.e,P=AV^(2)) , the work done by the substance will be

Compute the bulk modulus of water from the following data : Initial volume 100.0 litre, final volume = 100.5 litre ( 1 atm = 1.0 13 xx 10^(5) Pa ). Change in pressure 100 atm. Compare the bulk modulus of water with that of air ( at constant temperature ). Explain in simple terms why is the ratio so large.

Compute the bulk modulus of water from the following data : initial volume = 100.0 litre, pressure increase = 100.0 atmosphere. Final volume - 100.5 litre . (1 atmosphere = 1.013 xx 10^(5) Pa) . Compare the bulk modulus of water that of air (at constant temperature). explain in simple terms why the ratio is so large.

A sample of ideal gas undergoes isothermal expansion in a reversible manner from volume V_(1) to volume V_(2) . The initial pressure is P_(1) and the final pressure is P_(2) . The same sample is then allowed to undergoes reversible expansion under adiabatic conditions from volume V_(1) to V_(2) . The initial pressure being same but final pressure is P_(2) . If P_(3) and P_(2) are equal, then

A sample of ideal gas undergoes isothermal expansion in a reversible manner from volume V_(1) to volume V_(2) . The initial pressure is P_(1) and the final pressure is P_(2) . The same sample is then allowed to undergoes reversible expansion under adiabatic conditions from volume V_(1) to V_(2) . The initial pressure being same but final pressure is P_(3) . Which of the following is correct?

A sample of ideal gas undergoes isothermal expansion in a reversible manner from volume V_(1) to volume V_(2) . The initial pressure is P_(1) and the final pressure is P_(2) . The same sample is then allowed to undergoes reversible expansion under adiabatic conditions from volume V_(1) to V_(2) . The initial pressure being same but final pressure is P_(2) . Which graphic representation is correct a.

A sample of ideal gas undergoes isothermal expansion in a reversible manner from volume V_(1) to volume V_(2) . The initial pressure is P_(1) and the final pressure is P_(2) . The same sample is then allowed to undergoes reversible expansion under adiabatic conditions from volume V_(1) to V_(2) . The initial pressure being same but final pressure is P_(3) . The work of expansion in adiabatic process (w_(adi)) is related to work of expansion in isothermal process (w_(iso)) is

A sample of ideal gas undergoes isothermal expansion in a reversible manner from volume V_(1) to volume V_(2) . The initial pressure is P_(1) and the final pressure is P_(2) . The same sample is then allowed to undergoes reversible expansion under adiabatic conditions from volume V_(1) to V_(2) . The initial pressure being same but final pressure is P_(3) . Which relation is correct (gamma = (C_(P))/(C_(V))) ?

400 c c volume of gas having gamma=5/2 is suddenly compressed to 100 c c . If the initial pressure is P , the final pressure will be