2 moles of ammonia occupied a volume of 5 lit at `27^@C`. Calculate the pressure if `a=4.17atmL^2 mol^(-2), b= 0.0371 L mol^(-1)`

2 mol of a van der waals gas at 27^(@)C occupies a volume of 20 L. what is the pressure of the gas? [a=6.5 atm*L^(-2)*mol^(-2),b=0.056L*mol^(-1) ]

Prove that, 1 mol of any ideal gas occupies a volume of 22.4 L at STP.

Calculate the number of O-atoms in 0.5 mol of SO_(2) .

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)

The density of CO_(2) at STP is 1.96g*L^(-1) . A sample of CO_(2) occupies a volume of 480 mL at 17^(@)C and 800 mm Hg pressure. What is the mass of the sample?

A gas of molar mass 84.5 g//mol is enclosed in a flask at 27^@C has a pressure of 2 atm. Calculate the density of the gas. [R = 0.082 L atm K^(-1) mol^(-1)]

Calculate the volume occupied by 8.8g of CO_2 at 31.1^@C and 1 bar pressure.R=0.83bar Dm^3.k^1 mol^(-1)

Two moles of an ideal monoatomic gas occupies a volume V at 27^(@)C . The gas expands adiabatically to a volume 2V. Calculate (a) the final temperature of the gas and (b) change in its internal energy.

Calculate the pressure exerted by 5 mole of CO_2 in one litre vessel at 47^@C using van der Waals equation. Also report the pressure of gas if it behaves ideal in nature. Given that a = 3.592 atm L^2mol^(-1),b=0.0427Lmol^(-1) . Also, if the volume occupied by CO_2 molecules is negligible, then calculate the pressure exerted by one mole of CO_2 gas at 273 K.

The inversion temperature Ti(K) of hydrogen is (Given van der Waal’s constant a and b are 0.244 atm L^2 mol^(-2) and 0.027 L mol^(-1) respectively.)