Advertisements
Advertisements
प्रश्न
From the following data, show that the decomposition of hydrogen peroxide is a reaction of the first order:
| t (min) | 0 | 10 | 20 |
| V (ml) | 46.1 | 29.8 | 19.3 |
Where t is the time in minutes and V is the volume of standard KMnO4 solution required for titrating the same volume of the reaction mixture.
Advertisements
उत्तर
k = `2.303/"t" log (["A"_0])/(["A"])`
k = `(2.303/"t") log ("V"_0/"V"_"t")`
In the present case, V0 = 46.1 ml.
The value of k at each instant can be calculated as follows:
| t (min) | Vt | k = `(2.303/"t") log ("V"_0/"V"_"t")` |
| 10 | 29.8 | k = `2.303/10 log (46.1/29.8)` = 0.0436 min−1 |
| 20 | 19.3 | k = `2.303/20 log (46.1/19.3)` = 0.0435 min−1 |
Thus, the value of k comes out to be nearly constant. Hence it is a reaction of the first order.
APPEARS IN
संबंधित प्रश्न
Answer the following in one or two sentences.
What are the units for rate constants for zero-order and second-order reactions if time is expressed in seconds and concentration of reactants in mol/L?
What are pseudo-first-order reactions?
Derive an integrated rate law expression for first order reaction: A → B + C
This reaction follows first-order kinetics. The rate constant at particular temperature is 2.303 × 10−2 hour−1. The initial concentration of cyclopropane is 0.25 M. What will be the concentration of cyclopropane after 1806 minutes? (log 2 = 0.3010)
If 75% of a first order reaction was completed in 60 minutes, 50% of the same reaction under the same conditions would be completed in ____________.
The integrated rate law is a direct relationship between ____________ and ____________.
For the first order reaction, plot of log10 [A]t against time 't' is a straight line with a negative slope equal to ____________.
For the first order reaction A → B, the rate constant is 0.25 s-1, if the concentration of A is reduced to half, the value of rate constant will be ________.
A certain zero order reaction has rate constant 0.025 M s-1. What will be the concentration of reactant 'A' after 15 seconds, if initial concentration is 0.50 M?
A radioactive isotope decayed to 17/32 of its original mass after 60 minutes. Find the half-life of this radioisotope.
