Suppose the reaction `PC1_(5(s))hArrPC1_(3(s)) + C1_(2(g))` is in a closed vessel at equilibrium stage. What is the effect on equilibrium concentration of `C1_(2(g))` by adding `PCl_(5)` at constant temperature ?

Suppose the reaction PC1_(5(s))hArrPC1_(3(s)) + C1_(2(g)) is in a closed vessel at equilibrium stage. What is the effect on equilibrium concentration of C1_(2(g)) by adding PC1_(5) at constant temperqture ?

Consider the reaction CaCO_(3)(s) hArr CaO(s) +CO_(2)(g) in closed container at equilibrium. What would be the effect of addition of CaCO_(3) on the equilibrium concentration of CO_(2) ?

Phosphorus pentachloride dissociates as follows, ina closed reaction vessel, PC1_(5(g))hArrPC1_(3(g)) + C1_(2(g)) If total pressure at equilibrium of the reaction mixture is P and degree of dissociation of PC1_(5) is x, the partial pressure of PC1_(3) will be:

The system PCl_(5)(g) hArr PCl_(3)(g)+Cl_(2)(g) attains equilibrium. If the equilibrium concentration of PCl_(3)(g) is doubled, the concentration of Cl_(2)(g) would become

In the following reaction PC1_(5)(g)hArrPC1_(3)(g) + C1_(2)(g) at constant temperature, rate of backward reaction is increase by:

The reaction, PC1_(5)hArrPC1_(3) + C1_(2) is started in a 5 litre container by taking one mole of PC1_(5) . If 0.3 mole of PC1_(5) is there at equilibrium, concentration of PC1_(3) and K_(c) will respectively be:

If dissociation for reaction, PC1_(5)hArrPC1_(3) + C1_(2) is 20% at 1 atm pressure. Calculate K_(c) .