A vessel contains 1 mole `PCI_5` (g) at 4 atm and 0.5 mole `PCI_3` formed at equilibrium. Now, equilibrium pressure of mixture is (assume ideal behavior)

One mole of N_(2) and 3 mole of PCI_(5) are placed in a 100 litre vessel heated to 227^(@) c. The equilibrium pressure is 2.05 atm. Assuming ideal behaviour, If K_(p) of the reaction PCl_(5) hArr PCl_(3)+Cl_(2) is y xx 10^(-1) then what is 'y'?

A mixture of Nitrogen and Hydrogen (1:3 mole ratio) is at an initial pressure of 200atm. If 20% of the mixture reacts by the time equilibrium is reached, the equilibrium pressure of the mixture is

A vessel contains 0.25 moles of Helium and 0.15 moles of neon at 298K and 2.4 atmosphere pressure. Calculate the partial pressure of each gas in the mixture.

PCl_(5) dissociates as follows in a closed reaction vessel PCI_(5(g)) harr PCl_(3(g)) + Cl_((g)) . If total pressure at equilibrium of the reaction mixture is P and degree of dissociation of PCl_(5) is x, the partial pressure of PCI_(3) will be

When one mole of A and one mole of B were heated in a one litre flask at T(K), 0.5 moles of C were formed at equilibrium A+B hArr C+D The equilibrium constant K_(C) is

A vessel contains N_(2)O_(4) & NO_(2) in 2:3 molar ratio at 10 atm under equilibrium. Now, K_(P) for N_(2)O_(4) harr 2NO_(2) is