A gas is enclosed in a vessel of volume `V` at a pressure `P`. It is being pumped out of the vessel by mean of a piston-pump with a stroke volume. `v`. What is the final pressure in the vessel after `'n'` strokes of the pump ? Assume temperature reamains constant.

A gas is enclosed in a vessel of volume V at temperature T_(1) and P, the vessel is connected to another vessel of volume V//2 by a tube and a stopcock. The second vessel is initially evacuated. If the stopcock is opened, the temperature of second vessel becomes T_(2) . The first vessel is maintained at a temperature T_(1) . What is the final pressure P_(1) in the apparatus ?

When a gas is heated in a vessel of constant volume , the pressure increases because

When a gas is heated in a vessel of constant volume , the pressure increases because

When a gas is heated in a vessel of constant volume , the pressure increases because

A vessel of volume V is evacuated by means of a piston air pump. One piston stroke captures the volume Delta V . How many strokes are needed to reduce the pressure in the vessel eta times ? The process is assumed to be isothermal, and the gas ideal.

A vessel of volume V is evacuated by means of a piston air pump. One piston stroke captures the volume Delta V . How many strokes are needed to reduce the pressure in the vessel eta times ? The process is assumed to be isothermal, and the gas ideal.

At constant temperature certain mass of gas in vessel of volume 0.01m^3 exerts a pressure of 'P' atm. If it is transferred to a vessel of volume 10L , then its pressure in atm is?

3 L of gas is enclosed in a vessel at a pressure of 760 mm Hg. If temperature remain constant , calculate pressure when volume changes to 6L

4 L of gas is enclosed in a vessel at a pressure of 760 mm Hg. If temperature remain constant , calculate pressure when volume changes to 5L

A vessel of volume V is evacuated by means of a piston air pump. One piston stroke captures the volume v_0 . The pressure in the vessel is to be reduced to (1/n) of its original pressure , P_0 . If the process is assumed to be isothermal and air is considered an ideal gas, the number of strokes needed in the process is