`PCl_(5)` is 10% dissociated at 1 atm. What is % dissociation at 4 atm .` PCl_(5)(g)hArr PCl_(3)(g)+Cl_(2)(g)`

For the reaction PCl_(5)(g) rightarrow PCl_(3)(g) + Cl_(2)(g)

For the reaction : PCl_(5) (g) rarrPCl_(3) (g) +Cl_(2)(g) :

For the reaction : PCl_(5) (g) rarrPCl_(3) (g) +Cl_(2)(g) :

At a particular temperature, PCl_(5)(g) undergoes 50% dissociation. The equilibrium constant for PCl_(5)(g) rarr PCl_(3)(g) + Cl_(2)(g) is 2atm. The pressure of the equilibrium mixture is

Four moles of PCl_(5) are heated in a closed 4 dm^(3) container to reach equilibrium at 400 K. At equilibrium 50% of PCl_(5) is dissociated. What is the value of K_(c) for the dissociation of PCl_(5) into PCl_(3) "and" Cl_(2) at 400 K ?

For the gas-phase decomposition, PCl_(5)(g)LeftrightarrowPCl_(3)(g)+Cl_(2)(g)

1 mole of PCl_(5) taken at 5 atm, dissociates into PCl_(3) and Cl_(2) to the extent of 50% PCl_(5)(g)hArr PCl_(3)(g)+Cl_(2)(g) Thus K_(p) is :

Does the number of moles of reaction products increase, decrease, or remain same when each of the following equilibrium is subjected to a decrease in pressure by increasing the volume? a. PCl_(5)(g) hArr PCl_(3)(g)+Cl_(2)(g) b. CaO(s)+CO_(2)(g) hArr CaCO_(3)(s) c. 3Fe(s)+4H_(2)O(g) hArr Fe_(3)O_(4)(s)+4H_(2)(g)

1 mol of Cl_(2) and 3 mol of PCl_(5) are placed in a 100 L vessel heated to 227^(@)C . The equilibrium pressure is 2.05 atm. Assuming ideal behaviour, calculate the degree of dissociation for PCl_(5) and K_(p) for the reaction. PCl_(5)(g) hArr PCl_(3)(g)+Cl_(2)(g)

Phosphorous pentachloride when heated in a sealed tube at 700 K it undergoes decomposition as PCl_(5)(g) hArr PCl_(3)(g)+Cl_(2)(g), K_(p)=38 atm Vapour density of the mixture is 74.25 . Percentage dissociation of PCl_(5) may be given as