5 litre vessel contains 2 moles of each of gases A and B at equilibrium. If 1 mole each of A and B are removed. Calculate `K_(C)` for the reaction `A(g) iffB(g)`

For the reactions A+BhArr3C at 25^(@)C , a 3 litre vessel contains 1,2,4 mole of A, B and C respectively predict the direction of reaction if a. K_(c) for the reaction is 10 b. K_(c) for the reaction is 15 c. K_(c) for the reaction is 10.66

Starting from one mole each of anol and acetic acid, at equilibrium 2//3 mole of ester is formed . Calculate the equilibrium constant.

A mixture of SO_(2),SO_(3) and O_(2) gases are maintained at equilibrium in 10 litre flask at a temperature at which K_(c) for the reaction 2SO_(2)(g)+O_(2)(g)hArr2SO_(3)(g) is 100. At equilibrium. a. If no of moles of SO_(3) and SO_(2) is flask are same, how many moles of O_(2) are present. b. If no. of moles of SO_(3) in flask is twice the no. of moles SO_(2) how many moles of O_(2) are present.

Initially 0.8 mole of PCl_(5) and 0.2 mole of PCl_(3) are mixed in one litre vessel . At equilibrium 0.4 mole of PCl_(3) is present . The value of K_(C) for the reaction PCl_(5(g)) hArr PCl_(3(g)) + Cl_(2(g)) is