Active mass of 0.64g `SO_(2)` in 10 lit vessel is

Active mass of 5.6 lit N_2 at STP

The total pressure of a mixture of 6.4 grams of oxygen and 5.6 grams of nitrogen present in a 2 lit vessel is 1200mm. What is the partial pressure of nitrogen in mm?

At certain temperature 28 gm of N_(2) and 6 gm of H_(2) are taken in a 2 lit vessel in Haber's process if concentration of N_2 at equilibrium is

9.2 g of N_(2) O_(4 (g)) is taken in 1 lit vessel and heated . At equilibrium , 50 % is dissociated . Equilibrium constant (mol/lit) [MW = 92]

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)

50 g CaCO_(3) is allowed to dissociated in 22.4 lit vessel at 819^(@)C . If 50% of CaCO_(3) is left at equilibrium , active masses of CaCO_(3) , CaO and CO_2 respectively are

K_(C) for 2 SO_(2) + O_(2) hArr 2 SO_(3) in a 10 lit flask at certain T is 100 lit - mol^(-1) . Now , if equilibrium pressures of SO_2 and SO_3 are equal , then mass of O_(2) present at equilibrium is

A mixture of 0.3 mole of H_(2) and 0.3 mole of I_(2) is allowed to react in a 10 lit vessel at 500^(@)C . If K_(C) of H_(2) +I_(2)