Vanderwaal's constants for hydrogen chloride gas are a = 3.67 atm `lit^(-2)` and b = 40.8 ml `mol^(-1)`. Find the critical temperature and critical pressure of the gas.

Vanderwaal's constant for a gas (g) are a=6.34 atm "lit"^(-2), and b =52.6 ml "mol"^(-1) . Find the critical temperature and critical pressure of the gas.

Vanderwaal's constant for a gas a=3.67 atm "lit"^() "mol"^(-1) b=0.0408 '"lit mol"^(-1) . Find the critical temperautre and critical pressure of the gas.

Vanderwaal's constant in litre atmosphere per mole for carbon dioxide are a = 3.6 and b = 4.28 xx 10^(-2) . Calculate the critical temperature and critical volume of the gas. R = 0.0820 lit atm K^(-1). Mol^(-1)

The vanderwaal's constant a=2.095 "lit"^(-2) atm "mol"^(-1) and b=0.0189 "lit mol"^(-1) respectively. Calculate the inversion temperature.

The critical constants for water are 374^(@)C , 218 atm and 0.0566 litre mol^(-1) . Calculate a' and b' of water

The volume of an ideal gas (gamma = 1.5 ) is changed adiabatically from 4.00 liters to 3.00 liters . Find the ratio of (a) the final pressure to the initial pressure and (b) the final temperature to the initial temperature.

1 liter of an ideal gas (gamma =1.5) at 300k is suddenly compressed to half its original volume. (a) Find the ratio of the final pressure to the initial pressure. (b) If the original pressure is 100 kpa , find the work done by the gas in the process. (c) What is the change in internal energy? (d) What is the final temperature? (e) the gas is now colled to 300k keeping its pressure constant. Calculate the work done during the process . (f) The gas is now expanded iasothermally to achive its original volume of 1 liters. Calculate the work done by the gas .(g) Calculate the total work done in the cycle.

The constant gamma of oxygen as well as for hydrogen is 1.40. If the speed of sound in oxygen is 470 ms^-1, What wil be the speed in hydrogen at the same temperature and pressure?

A given sample of an ideal gas (gamma = 1.5 ) is compressed adiabatically from a volume of 150 cm ^(3) to 50 cm ^(3) . The initial pressure and the initial temperature are 150 kpa and 300K . Find (a) the number of moles of the gas in the sample, (b) the molar heat capacity at constant volume.

The critical temperature of hydrogen gas is 33.2^(@)C and its critical pressure is 12.4 atm. Find out the values of a' and b' for the gas.