Find the temperature at which one mole of `SO_3` will occupy 10 lit at 5 atm. (correction constants 'a' = `6.71 atm L^2 mol^(-2) and 'b' = 0.0504 L mol^(-1)`

A vessel of 25 litre capacity contains 10 moles of steam under pressure of 50.3 atm. Calculate the temperature of steam using van der Waals equation (if for water a=5.46 bar L^2 mol^(-2) and b=0.031 L mol^(-1) )

Calculate the pressure exerted by 5 moles of CO_2 in one litre vessel at 47^@ C using Vanderwaal's equation. Also report the pressure of gas if it behaves ideally in nature. Given that a=3.592 atm lit^2 mol^(-2) . b = 0.0427 lit mol^(-1)

At what temperature the volume of 28 grams of N_2 will be 1L exerting a pressure of 1 atm?

The temperature of 5 moles of a gas is decreased by 2K at constant pressure of 1 atm. Indicate the correct statement

For a van der Waal's gas, determine Boyle Temperature (given a = 4.5 atm L^2 mol^(-2) , b = 0.9 L mol^(-1) and R = 0.082 L atm K^(-1) mol^(-1) ]

What is the compressibility facto (Z) for 0.02 mole of a van der Waal's gas at pressure of 0.1 atm. Assume the size of gas molecules is neligible. Given : RT = 20 L. atm "mol^(-1) and alpha = 1000 atm L^(2) "mol^(-2)

Equilibrium constant, K_(c) for the reaction N_(2)(g)+3H_(2)(g)hArr2NH_(3)(g) at 500K is 0.061 At particular time, the analysis shows that composition of the reaction mixture is 3.0 mol L^(-1)N_(2) , 2.0 mol L^(-1)H_(2) and 0.5 mol L^(-1)NH_(3) . Is the reaction at equilibrium ? If not in which direction does the reaction tend to proceed to reach equilibrium ?