8 litre of `H_(2) ` and 6 litre of `Cl_(2)` are allowed to react to maximum possible extent. Find out the final volume of reaction mixture. Suppose P and Tremains constant throughout the course of reaction:

In Haber process, 30 litres of H_(2) and 30 litres of N_(2) were taken for reaction which yielded only 50% of the expected product. What will be the composition of the gaseous mixture under the above said condition in the end?

One litre of O_(2) gas is passed through a ozoniser, the final volume of mixture becomes 820 ml. If this mixture is passed through turpentine oil the final volume of gas remaining is

At a certain temperature, 2 moles of CO and 4 moles of Cl_(2) reacted to form COCl_(2) in a 10 L vessel. At equilibrium if one mole CO is present then equilibrium constant for the reaction is

A 20 litre container at 400 K contains CO_(2) gas at a pressure of 0.4 atm and an excess of solid SrO and solid SrCO_(3) (neglect the volume of the solids). The volume of the container is now gradually decreased by moving the piston fitted in the container. The volume of the container, when the pressure of CO_(2) attains its maximum value is (Given that SrCO_(3)(s) iff SrO(s)+CO_(2)(g), K_(p)=1.6 atm at 400K)

The temperature dependence of the rate of a chemical reaction can be accurately explained by Arrhenius equation. With the help of Arrhenius equation, calculate the rate constant for the first order reaction C_2H_5I(g)toC_2H_(4(g))+HI_((G))at700K .Energy of activation (Ea)for the reaction is 209kjmol_(-1) and rate constant at 600K is 1.60xx10^(-5)s^(-1) [Universal gas constant R= 8.314JK^(-1)mol^(-1)]

7g of N_2 is allowed to react with 2g H_2 in presence of catalyst to form NH_3 Calculate the maximum amount of NH_3 that can be formed in the reaction.

A mixture of C_(3) H_(8) and CH_(4) exert a pressure of 320 mm of Hg at temperature TK in a V litre flask. On complete combustion, gaseous mixture contains CO_(2) only and exert a pressure of 448 mm of Hg under identical conditions. Hence mole fraction of C_(3) H_(8) in the mixture is