`3.00` mol of `PCl_(5)` kept in `1L` closed reaction vessel was allowed to attain equilibrium at `380K`. Calculate composition of the mixture at equlibrium `K_(c)=1.80`

Mole of PCl_(5) is heated in a closed vessel of 1 litre capacity. At equilibrium 0.4 moles of chlorine is found. Calculate the equilibrium constant.

When 1 mole of N_2 and 1 mole of H_2 is enclosed in a 5 L vessel and reaction is allowed to attain equilibrium . It is found that at equilibrium there is x mole of H_2 . The number of moles of NH_(3) formed would be

13.8g of N_(2)O_(4) was placed in a 1L reaction vessel at 400K and allowed to attain equilibrium N_(2)O_(4)(g)hArr2NO_(2)(g) The total pressure at equilibrium was found to be 9.15 bar . Calcualate K_(c) , K_(p) and partial pressure at equilibrium.

Reaction between N_(2) and O_(2-) takes place as follows : 2N_(2)(g)+O_(2)(g)hArr2N_(2)O(g) If a mixture of 0.482 mol N_(2) and 0.933 mol of O_(2) is placed in a 10L reaction vessel and allowed to form N_(2)O at a temperature for which K_(c)=2.0xx10^(-37) . determine the composition of equlibrium mixture.

Ethyl acetate is formed by the reaction between ethanol and acetic acid and the equilibrium is represented as : CH_(3)COOH(I)+C_(2)H_(5)OH(I) hArrCH_(3)COOC_(2)H_(5)(I)+H_(2)O(I) (i) Write the concentration ratio (reaction quotient). Q_(c) , for this reaction (note : water is not in excess and is not a solvent in this reaction ) (ii) At 293K , if one starts with 1.00 mol of acetic acid and 0.18 mol of ethanol, there is 0.171 mol of ethyl acetate in the final equilibrium mixture. Calculate the equilibrium constant. (iii) Starting with 0.5 mol of ethanol and 1.0 mol of acetic acid and maintaining it at 293K , 0.214 mol of ethyl acetate is found after sometime. Has equilibrium been reached ?