A reaction `Aoverset(k)rarr` product follows half-order kinetics with respect to linear plot isobserved between

In a class room discussion about order and molecularity of a chemical reaction, Ramu argued that “there are reactions which appear to be of higher order but actually follow first order kinetics.List out any three Important differences between order and molecularity.

If decomposition reaction A(g) to B(g) follows first order kinetics then the graph of rate of (R) of B against time t will be :

The kinetic data for the given reaction A (g) + 2 B (g) overset(k)rarr C (g) is provided in the following table for three experiments at 300 K In another experiment starting with initial concentration of 0.5 and 1 M respectively for A and B at 300 K, find the rate of reaction after 50 minutes from start of experiment (in M/sec).

For the reaction system: 2NO(g) + O_(2) (g) rarr 2NO_(2) (g) volume is suddenly reduced to half its value by increasing the pressure on it. If the reaction is of first-order with respect to O_(2) and second-order with respect to NO, the rate of reaction will be

The conversion of molecule A to B follows second order kinetics its rate equation for the second order reaction is rate = K[A]^2.If the concentration of A is increased to 4 times how will it affect the formation of B.

The reaction A rarr X is a first order reaction which takes place in a vessel with initial concentration of A as 10 M. The rate constant for this reaction is 4.16 h^(-1) . In the presence of a catalyst, the reaction A rarr Y follows second-order kinetics and the rate constant is 0.2 min^(-1) M^(-1) . What should be the initial concentration of A in the presence of catalyst so that the value of t_(1//2) for both the reactions is the same?