Consider the pertial decomposition of `A` as
`2A(g)hArr2B(g)+C(g)` At equilibrium `700`mL gaseous mixture contains `100`mL of gas C at `10` atm and `300K` what is the value of `K_(p)` for the reaction ?

Consider the partial decomposition of A as 2A(g)hArr2B(g)+C(g) At equilibrium 700 ml gaseous mixture contains 100 ml of gas C at 10 atm and 300 K. What is the value of K_(P) for the reaction?

When 3.00 mole of A and 1.00 mole of B are mixed in a 1,00 litre vessel , the following reaction takes place A(g) +B(g) hArr 2C(g) the equilibrium mixture contains 0.5 mole of C. What is the value of equilibrium constant for the reaction ?

At 207^@C , for the reaction : N_2(g) + 3H_2(g) hArr 2NH_3(g) it is found that at equilibrium, the mixture contains 52% of ammonia. If the pressure of the mixture is 10 atm, calculate K_p and K_c for the reaction.

For NH_(4)HS(s) hArr NH_(3)(g)+H_(2)S(g) , the observed, pressure for reaction mixture in equilibrium is 1.12 atm at 106^(@)C . What is the value of K_(p) for the reaction?

Following equilibrium is established at temperature T. A(g) hArr B(g) + C(g) If equilibrium concentrations of A, B and C are 1M, 2M and 2M respectively, K_​p ​ for the reaction is :-

COG_(2(g)) in presence of catalyst at 1000^(@)C shows the equilibrium: 2COF_(2(g))hArrCO_(2(g))+CF_(4(g)) At equilibrium 500 mL of the equilibrium mixture at STP contains 300 mL of ( COF_(2) and CO_(2) ) at STP . If total pressure is 10 atm , calculate K_(p) .

For the equilibrium 2NOCl(g) hArr 2NO(g)+Cl_(2)(g) the value of the equilibrium constant, K_(c) is 3.75 xx 10^(-6) at 1069 K . Calcualate the K_(p) for the reaction at this temperature?