0.1 mole of `N_(2O_(4)(g)` was sealed in a tude under one atmospheric conditions at `25^(@)C` Calculate the number of moles of `NO_(2)(g)` preesent , if the equilibrium `N_(2)O_(4)(g)hArr2NO_(2)(g)(K_(P)=0.14)` is reached after some time :

What is the effect of increasing pressure on the equilibrium ? 2SO_(2) (g) + O_(2)(g) hArr 2SO_(3)(g)

For a reaction N_(2(g)) + 3H_(2(g)) hArr 2NH_(3(g))

The molecularity of a complex reaction given below is : 2N_(2)O_(5)(g)to4NO_(2)(g)+O_(2)(g)

9.2 grams of N_(2)O_(4(g)) is taken in a closed one litre vessel and heated till the following equilibrium is reached N_(2)O_(4(g))hArr2NO_(2(g)) . At equilibrium, 50% N_(2)O_(4(g)) is dissociated. What is the equilibrium constant (in mol litre^(-1) ) (Molecular weight of N_(2)O_(4) = 92 ) ?

What is the unit of K_(p) for the reaction ? CS_(2)(g)+4H_(4)(g)hArrCH_(4)(g)+2H_(2)S(g)

Write the equilibrium constant expression for the following reactions. CH_(4)(g) + 2O_(2)(g) hArr CO_(2)(g) + 2H_(2)O(l)

A reaction system in equilibrium according to reaction 2SO_(2)(g)+O_(2)(g)hArr2SO_(3)(g) in one litre vessel at a given temperature was found to be 0.12 mole each of SO_(2) and SO_(3) and 5 mole of O_(2) In another vessell of one litre contains 32 g of SO_(2) at the same temperature. What mass of O_(2) must be added to this vessel in order that at equilibrium 20% of SO_(2) is oxidized to SO_(3) ?

Calculate the work done (in J) when 4.5 g of H_(2)O_(2) reacts against a pressure of 1.0 atm at 25^(@)C 2H_(2)O_(2)(l)rarr O_(2)(g) +2H_(2)O(l)

Find out the value of K_(c) for each of the following equilibrium from the value of K_(p) : 2NOCl(g) hArr 2NO (g) + Cl_(2)(g), K_(p) = 1.8 xx 10^(-2) at 500 K.