The following reaction is at equilibrium at 298K
2 `SO_(2)` (g,0.00001 bar ) + `O_(2)` (g,0.01 bar) `harr` 2 `SO_(3)` (g,0.01 bar)
`Delta G^(@)` for the reaction is

2 SO _(2) (g)+ O _(2) (g) to 2 SO _(3) (g) The above reaction is carried out in a vessel starting with partial pressure P _( SO _(2)) = 250 m bar P _( O _(2)) = 750 m bar and P _( SO _(3)) = 0 bar . When the reaction is complete, the total pressure in the reaction vessel is _____ m bar. (Round off to the nearest integer)

For the following reactions , equilibrium constants are given : S(s)+O_2(g) hArr SO_2(g) , K_1=10^52 2S(s) +3O_2(g) hArr 2SO_3(g) , K_2=10^129 The equilibrium constant for the reaction , 2SO_2(g) +O_2(g) hArr 2SO_3(g) is :

Mention atleast three ways by which the concentration of SO_(2)(g) be increased in the following reaction in a state of equilibrium : 2SO_(2) (g) + O_(2) (g) hArr 2SO_(3) (g) + heat.

At a certain temperature , the following reactions have the equilibrium constants as shown below: S(s)+O_(2)(g)hArrSO_(2)(g),K_(c)=5xx10^(52) 2S(s)+3O_(2)(g)hArr2SO_(3)(g),K_(c)=5xx10^(29) what is the equilibrium constant K_(c) for the reaction at tahea same temperature? 2SO_(2)(g)+O_(2)(g)hArr2SO_(3)(g)

At equilibrium degree of dissociation of SO_(3) is 50% for the reaction 2SO_(3)(g)hArr 2SO_(2)(g)+O_(2)(g) . The equilibrium constant for the reaction is

One mole of SO_(3) was placed in a litre reaction vessel at a certain temperature. The following equilibrium was established 2SO_(3)(g)hArr 2SO_(2)(g)+O_(2)(g) At equilibrium 0.6 moles of SO_(2) were formed. The equilibrium constant of the reaction will be

The degree of dissociation of SO_(3) at equilibrium pressure is: K_(p) for 2SO_(3) (g)hArr2SO_(2)(g) + O_(2) (g)