If two moles of an ideal gas at 546 K occupy a volume of 44.8 litres, the pressure must be

If two mole of an ideal gas at 546 K occupies a volume of 44.8 litres , the pressure must be :

If 4 moles of an ideal gas at 300 K occupy volume of 89 . 6 L , then pressure of the gas will be (A) 2 atm (B) 1 atm (c) 1.099 atm (D) 2.910 atm

The pressure of 2 mole of ideal gas at 546 K having volume 44.8 L is

If one mole of a gas A (mol.wt-40) occupies a volume of 20 litres, under the same conditions of temperature and pressure the volume occupied by 2 moles of gas B (mol.wt=80) is

2.8 g of a gas at 1atm and 273K occupies a volume of 2.24 litres. The gas can not be:

What will be the entropy change when two moles of an ideal gas expand reversibly from initial volume of 1 litre to 10 litre at constant temperature of 300 K?

The work done in ergs for the reversible expansion of one mole of an ideal gas from a volume of 10 litres to a volume of 20 litres at 25^@C is

Find the temperature at which 3 moles of SO_2 will occupy a volume of 10 litre at a pressure of 15 atm. a=6.71 atm litre^2mol^(−2) ;b=0.0564 litre mol^(−1) .

Find the temperature at which 2 moles of SO_2 will occupy a volume of 10 litre at a pressure of 15 atm. a=6.71 atm litre^2mol^(−2) ;b=0.0564 litre mol^(−1) .

Find the temperature at which 4 moles of SO_2 will occupy a volume of 10 litre at a pressure of 15 atm. a=6.71 atm litre^2mol^(−2) ;b=0.0564 litre mol^(−1) .