For the reaction, `A rarr` Products, `-(d[A])/(dt)=k` and at different time interval, [A] values are
`{:("Time",0,"5 min","10 min","15 min"),([A],20M,18M,16M,14M):}`
At 20 min, rate of reaction in M m `"in"^(-1)` will be

For the reaction Ato products, the following data is given for a particular run. {:("time(min.):",0,5,15,25),(1/([A])(M-1):,1,2,4,8):} Determine the order of the reaction.

In a reaction, 2X to Y , the concentration of X decreases from 0.50M to 0.38 M in 10 min. What is the rate of reaction in M s^(-1) during this interval?

For a reaction R to P , the concentration of a reactant changes from 0.05 M to 0.04 M min 30 minutes. What will be average rate of reaction in minutes?

In a reaction 2A to Product the concentration of A decreases from 0.8 mole/L to 0.3 mole/L in 20 min. The rate of the reaction during this interval of time is

For the reaction 2A +B to A_2B , the rate =k[A][B]^2 with k = 2.0 xx 10^(-6) M^(-2) s^(-1) . Calculate the initial rate of the reaction when [A] = 0.1M, [B] = 0.2 M. If the rate of reverse reaction is negligible then calculate the rate of reaction after [A] is reduced to 0.06 M.

The rate of first-order reaction is 1.5 xx 10^(-2) M "min"^(-1) at 0.5 M concentration of reactant. The half-life of reaction is

For the reaction X to Y +Z if the initial concentration of X was reduced form 2M to 1M in 20 min and from 1M to 0.25M in 40min , find the order .

The rate of decomposition of NH_(3)(g) at 10 atm on platinum surface is zero order . What is rate of formation (in M min^(-1) ) of H_(2) (g) , if rate constant of reaction 2NH_(3(g)) to N_(2)(g) +3H_(2)(g) is 2.0 M min^(-1) ?