The deviations from ideal gas behaviour `PV =RT` were successfully explained by van der Waals he pointed out that it is not advisable to neglect the volume of molecules and attractions between themselves at all the conditions He proposed volume correction and pressure correction as `(V -b) and ( P+(a)/(V^(2)))` for 1 mole of gas in ideal gas equation .
Compressibility factor for a real gas `Z` at average pressure is .

The deviations from ideal gas behaviour PV =RT were successfully explained by van der Waals he pointed out that it is not advisable to neglect the volume of molecules and attractions between themselves at all the conditions He proposed volume correction and pressure correction as (V -b) and ( P+(a)/(V^(2))) for 1 mole of gas in ideal gas equation . van der Waals' equation for 'n' moles of a real gas is .

The deviations from ideal gas behaviour PV =RT were successfully explained by van der Waals he pointed out that it is not advisable to neglect the volume of molecules and attractions between themselves at all the conditions He proposed volume correction and pressure correction as (V -b) and ( P+(a)/(V^(2))) for 1 mole of gas in ideal gas equation . For a real gas PV gtRT at all pressure ranges then .

The deviations from ideal gas behaviour PV =RT were successfully explained by van der Waals he pointed out that it is not advisable to neglect the volume of molecules and attractions between themselves at all the conditions He proposed volume correction and pressure correction as (V -b) and ( P+(a)/(V^(2))) for 1 mole of gas in ideal gas equation . The compressibility factor Z is greater than unity the at STP,V_(m) in litre is .

The deviations from ideal gas behaviour PV =RT were successfully explained by van der Waals he pointed out that it is not advisable to neglect the volume of molecules and attractions between themselves at all the conditions He proposed volume correction and pressure correction as (V -b) and ( P+(a)/(V^(2))) for 1 mole of gas in ideal gas equation . The volume occupied by molecules in motion for one mole of gas at NTP if molecules are spherical having radius 10^(-8) cm is .

Compressibility factor (Z) for a van der Waals real gas at critical point is

Why do real gases show deviation from ideal behaviour ? Write van der Waals equation for n moles of a gas.

At high pressure, the compressibility factor for one mole of van der Waals gas will be

If v is the volume of one molecule of a gas under given conditions, then van der Waals constant b is