AT 540 K 0.10 moles of `PCI_5` are heated in 8 litre flask. The pressure of the equilibrium mixture is found to be 1.0 atm. Calculate `K_p and K_c` for the reaction.

At 540 K, 0.10 mol of PCl_(5) is heated in a 8L flask. The pressure of equilibrium mixture is found to be 1.0 atm . Calculate K_(p) and K_(c ) 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.

In an evacuated vessel of capacity 110 litres, 4moles of Argon and 5 moles of PCI_5 were introduced and equilibrium at 250^@C . At equilibrium , the total pressure of the mixture was found to be 4.678 atm. Calculate the degree of dissociation (alpha) "of " PCI_5 and K_p for the reaction, PCI_5 hArr PCI_3 +CI_2 at this temperature.

At 87^(@)C , the following equilibrium is established H_(2) (g)+S(s)hArrH_(2)S(s)(g), K_(p)=7xx10^(-2) If 0.50 mole of hydrogen and 1.0 mole of sulphuur are heated to 87^(@)C and 2.0 atm .the equilibrium gases mixture contains 40% chlorine by volume. Calculate K_(p) at 247^(@)C for the reaction PCl_(5)(g)hArrPCl_(3)(G)+Cl_(2)(g)

For the reaction at 127^@ C N_2(g) + 3H_2(g) hArr 2NH_3(g) the partial pressures of N_2 and H_2 are 0.80 and 0.40 atm respectively at equilibrium. The total pressure of the system is 2.80 atm. Calculate K_p and K_c for the reaction.

In a reaction A+2BhArr2C , 2.0 mole of 'A' , 3.0 mole of 'B' and 1 mole of 'C' are placed in a 2.0 L flask and the equilibrium concentration of 'C' is 1.0 mole/L.The equilibrium constant (K) for the reaction is :