The pressure of gas A `(P_(A))` is 3.0 atm when it occupies 5L of the volume. Calculate the final pressure when it is compressed to 3L volume at constant temperature.

Calculate the moles of an ideal gas at pressure 2 atm and volume 1 L at a temperature of 97.5 K

A 1 mol gas occupies 2.4L volume at 27^(@) C and 10 atm pressure then it show :-

The essential conditions for liquefaction of gases were discovered by Andrews in 1869 as a result of his study of pressure-volume-temperature relationship for CO_(2) . It was found that above a certain temperature, it was impossible to liquefy a gas whatever the pressure was applied. The temperature below which the gas can be liquefied by the application of pressure alone is called critical temperature (Tc). The pressure required to liquefy a gas at this temperature is called the critical pressure (Pc). The volume occupied by one mole of the substance at the critical temperature and pressure is called critical volume. Critical constants are related with van der waals' constant as follows: V_( c) = 3b, P_( c) =a/(27b^(2)), T_( c) =(8a)/(27 Rb) The values of critical volumes of four gases A, B, C and D are 0.025L, 0.312L, 0.245L and 0.432L respectively. The gas with larger molecular diameter will be :

At what pressure a quantity of gas will occupy a volume of 60 mL, if it occupies a volume of 100mL at a pressure of 720 mm (while temperature is constant) :

A gas occupies a volume of 2.5 L at 9xx10^(5)Nm^(-2) . Calculate the additional pressure required to decrease the volume of the gas to 1.5 L , Keeping temperature constant.

A sample of nitrogen gas occupies a volume of 1 L at a pressure of 0.5 bar at 40^@C . Calculate the pressure if the gas is compressed to 0.225 cm^3 "at" -6^@C

Air contained in a cylinder at 20.0^(@)C is compressed froma n initial pressure of 1.00 atm, and volume of 700 cm^(3) to a volume of 70.0cm^(3) . If the final pressure is 15.0 atm then what is the final temperature?

Internal volume of steel cylinder was 25 litres and filled with hydrogen gas at 30 atmospheric pressure. What will be the volume occupied by hydrogen gas if it is filled in a balloon at atmospheric pressure of 1.25 atm. pressure. At the same temperature?

The change in the magnitude of the volume of an ideal gas when a small additional pressure DeltaP is applied at a constant temperature, is the same as the change when the temperature is reduced by a small quantity DeltaT at constant pressure. The initial temperature and pressure of the gas were 300 K and 2 atm. respectively. If |DeltaT|=C|DeltaP| then value of C in (K/atm) is __________.

A quantity of gas occupies an initial volume V_(0) at pressure p_(0) and temperature T_(0) . It expands to a volume V (a) constant temperature and (b) constant pressure. In which case does the gas do more work ?