Decomposition of a gas is to be second o...

Decomposition of a gas is to be second order.When the initial concentration of the gas is `4times10^(-4)` mole/litre it is 40% decomposed in 60 minutes.What is the value of velocity constant `(L mol^(-1)min^(-1))` of the reaction?

Similar Questions

Explore conceptually related problems

A first order reaction is 40% complete in 50 minutes. Calculate the value of the rate constant. In what time will the reaction be 80% complete?

Rate constant k=2.303 min^(-1) for a particular reaction. The initial concentration of the reactant is 1 mol // litre then rate of reaction after 1 minute is:

Half - life period of the decomposition of a compound is "20" minutes.If the initial concentration is doubled,the half - life period is reduced to 10 mins.What is the order of the reaction?

Decomposition of a gas is of first order. It takes 80 minutes for 80% of the gas to be decomposed when its initial concentration is 8xx10^(-2) mole/litre. Calculate the specific reaction rate.

At a concentration of 0.1 and 0.2 mol L_(-1) , the rates of decomposition of a compound were found to be 0.18 and 0.72 mol L^(-1)min^(-1) . What is the order of the reaction?

A first order reaction is 40% complete after 8 min . How long will it take before it is 90% complete? What is the value of the rate constant?

Rate constant k=2.303"min"^(-1) for a particular reaction. The initial concentration of the reaction is 1. mol/L, then rate of reaction after 1 minute is

The initial rate of a second order reaction is 4xx10^(-4) "mol" L^(-1) s^(-1) and the initial concentration of the reaction substance is 0.20 "mol" L^(-1) the value of rate constant is

Decomposition of a gas is to be second order.When the initial concentration of the gas is `4times10^(-4)` mole/litre it is 40% decomposed in 60 minutes.What is the value of velocity constant `(L mol^(-1)min^(-1))` of the reaction?

Similar Questions

Recommended Questions