The compressibility factor for nitrogen at `330K` and `800 atm` is `1.90` and at `570K` and `200 atm` is `1.10`. A certain mass of `N_(2)` occupies a volume of `1dm^(3)` at `330K` and `800 atm` calculate volume occupied by same quantity of `N_(2)` gas at `570 K` and `200 atm`

The compressibility factor (Z=PV//nRT) for N_(2) at 223 K and 81.06 MPa is 1.95 , and at 373 K and 20.265 MPa , it is 1.10 . A certain mass of N_(2) occupies a volume of 1.0 dm^(3) at 223 K and 81.06 MPa . Calculate the volume occupied by the same quantity of N_(2) at 373 K and 20.265 MPa .

1 mol of SO_(2) occupies a volume of 350 mL at 300 K and 50 atm pressure. Calculate the compressibility factor of the gas.

A sample of gas occupies a volume of 9.23L at 345K and 1.40atm. What is its volume at 525K and 3.20 atm?

The Temperature at which 28 g of N_(2) will occupy a volume of 10.0 L at 2.46 atm is

Standard molar volume is the volume occupied by 1 mol of a gas at .......... and 1 atm pressure.

Calculate the compressibility factor for CO_(2) if one mole of it occupies 0.4 litre at 300K and 40 atm . Comment on the result:

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