consider the given reaction, `3A(g) + B(g) hArr 2C(g)` at a given temperature if a mixture of 2 mol each of A, B and C exist at equilibrium and `K_c =9` then volume of the flask will be

For the reaction 3A(g)+B(g) hArr 2C(g) at a given temperature , K_c=9.0 .What must be the volume of the flask, if a mixture of 2.0 mol each of A, B and C exist in equilibrium ?

For the reaction 3A(g)+B(g) hArr 2C(g) at a given temperature, K_c =9.0 what must be the volume (in L) of the flask , if a mixture of 2.0 mol each of A,B and C exist in equilibrium ?

For the reaction 2A(g)hArrB(g)+3C(g), at a given temperature , K_(c)=16. What must be the volume of the flask , if a mixture of 2 mole rach of A,B and C exist in equilibrium ?

For the hypothetical reaction, 2A(s)+B(g) hArr 3C(g) What is the equilibrium expression ?

The K_c for given reaction will be A_2 (g) +2B (g) hArr C(g) +2D(s)

For the reversible reaction A(g)+B(s) hArr 2C(g),K_p/K_c=(RT)^x . Hence x is :

The value of K_(p) for the reaction, A(g) +2B(g) hArr C(g) is 25atm^(-2) at a certain temperature. The value of K_(p) for the reaction , (1)/(2) C(g) hArr (1)/(2) A(g)+B(g) at the same temperature would be :