For a reaction `CH_(3)OCH_(3) (g) rarr CH_(4) (g)+H_(2) (g)+CO(g)` at 750K, the rate constant is `3.52xx10^(-3)" min"^(-1)`. Starting with a pressure of 360 mm of Hg at this temperature in a closed container, how many minutes would it take for the pressure in the container to become 760 mm Hg ? (Take log 2.25 = 0.352)

For a reaction CH_(3)OCH_(3)(g) rarr CH_(4)(g)+H_(2)(g) + CO(g) at 750 K , the rate constant is 6.72 xx 10^(-3) min^(-1) . Starting with a pressure of 400 mm of Hg at this temperature in a closed container, how many minutes would it take for the pressure in the container to become 760 mm Hg ?

A vessel contains dimethyl ether at a pressure of 0.4 atm. Dimethyl ether decomposes as CH_(3)OCH_(3)(g)+CH_(4)(g)+CO(g)+H_(2)(g). The rate constant of decomposition is 4.78 xx 10^(–3)" min"^(–1) . Calculate the ratio of initial rate of diffusion to rate of diffusion after 4.5 hours of initiation of decomposition. Assume the composition of gas present and composition of gas diffusing to be same.

In reaction: CH_(3)COCH_(3)(g)hArrCH_(3)CH_(3)(g)+CO(g), if the initial pressure of CH_(3)COCH_(3)(g) is 150 mm and at equilibrium the mole fraction of CO(g) is 1/3 , then the value K_(P) is

For the gaseous reaction A(g) rarr 4 B(g) + 3C( g) is found to be first order with respect to A. If at the starting the total pressure was 100mm Hg and after 20 minutes it is found to be 40 mm Hg. The rate constant of the reaction is :

For the reaction 3A(g)rarr2B(g)+2C(g) , starting with pure A ,pressure after 9 min was 387.5 mm of Hg and after a long time was 400mm of Hg.Calculate half life of A in min.(Assume first order reaction.)