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"^(2) mol^(-2), b = 0.0564 " litre " mol^(-1)`

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 5 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) .

Find the temperature at which 7 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) .

How many moles of SO_(2) will occupy a volume of 10 litre at a pressure of 15 atm and temperature 624 K ? (a = 6.71 atm L^(2) mol^(-2) , b = 0.0564 litre mol^(-1) )

Calculate from the vander wall's equation, the temperature at which 192 gm of SO_(2) would occupy a vol. of 10 md^(3) at 15 atm pressure. [ a= 6.7 atm lit^(2) mol^(2) , b=0.0564 lit mol^(-1) ]

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)

At what temperature 28 g of N_(2) will occupy a volume of 20 litres at 2 atm ?