Consider the following equilibrium:
`SO_(3) rarr SO_(2)+O_(2)`
`8.0 g` of `SO_(3)` are put in a container at `600^(@)C`. The equilibrium pressure and density are `1.8` atm and `1.6 g L^(-1)`, respectively. Find the value of `K_(p)`.

3 mole of SO_(3)(g) are taken in 8.0 L container at 800^(@)C . At equilibrium, 0.58 mol of O_(2)(g) are formed. Find the value of K_(c) for 2SO_(2)(g)+O_(2)(g) hArr 2SO_(3)(g)

48 g of SO_(3) , 12.8 g of SO_(2) and 9.6 g of O_(2) are present in one litre . The respective active masses will be

Inert gas has been added to the following equilibrium system at constant volume SO_(2)(g)+1//2 O_(2)(g) hArr SO_(3)(g) To which direction will the equilibrium shift?

The equilibrium SO_(2)(g)+(1)/(2)O_(2)(g)hArrSO_(3)(g) is established in a container of 4L at a particular temperature. If the number of moles of SO_(2),O_(2) "and" SO_(3) at equilibrium are 2,1 "and" 4 respectively then find the value of equilibrium constant.

Find out the units of K_c and K_p for the following equilibrium reactions : 2SO_2(g)+ O_2(g) hArr 2SO_3(g)

Calculate the entropy change ( DeltaS ) for the following reaction at 25^@C . SO_2(g) + 1/2O_2(g) to SO_3(g) The absolute entropies at 25^@C and 1 atm pressure for SO_2(g), O_2(g) and SO_3(g) are 248.5, 205.0 and 256.2 J K^(-1) mol^(-1) respectively.

Consider the following gaseous equilibria with equilibrium constant K_(1) "and" K_(2) respectively. SO_(2)(g)+1/2O_(2)(g) rarr SO_(3)(g), 2SO_(3)(g) rarr 2SO_(2)(g) + O_(2)(g) The equilibrium constant are related as :

Consider the following gaseous equilibria with equilibrium constants K_(1) and K_(2) respectively. SO_(2)(g)+1/2O_(2)(g) rarr SO_(3)(g), 2SO_(3)(g) rarr 2SO_(2)(g) + O_(2)(g) The equilibrium constants are related as :

Consider the following equilibrium: SO_(2)(g)+(1)/(2)O_(2)(g)overset(K_(1))(hArr)SO_(3)(g), 2SO_(3)(g) overset(K_(2))(hArr) 2SO_(2)(g) + O_(2) (g) What is the relation between K_(1) and K_(2) ?

Find the value of K_(p) for the reaction : 2SO_(2)(g)+O_(2)(g) hArr 2SO_(3)(g) , if the partial pressures of SO_(2), O_(2) , and SO_(3) are 0.559 atm, 0.101 atm and 0.331 atm respectively. What will be the partial pressure of O_(2) gas if at equilibrium, equal amounts (in moles) of SO_(2) and SO_(3) are observed?