Advertisements
Advertisements
प्रश्न
Arrhenius equation can be represented graphically as follows:
The (i) intercept and (ii) slope of the graph are:
पर्याय
(i) ln A (ii) Ea/R
(i) A (ii) Ea
(i) ln A (ii) - Ea/R
(i) A (ii) - Ea
Advertisements
उत्तर
(i) ln A (ii) - Ea/R
Explanation:
According to Arrhenius equations,
`k = A exp (- (Ea)/(RT))`
Taking ln on both sides
`l n k = l n A - (Ea)/(RT)`
Or `l n K = (- (Ea)/R) 1/T + l n A`
Comparing the above equations with the equation of straight line y = mx + C, we got
m = `(-Ea)/R`
C = `l n A`
APPEARS IN
संबंधित प्रश्न
Consider the reaction
`3I_((aq))^-) +S_2O_8^(2-)->I_(3(aq))^-) + 2S_2O_4^(2-)`
At particular time t, `(d[SO_4^(2-)])/dt=2.2xx10^(-2)"M/s"`
What are the values of the following at the same time?
a. `-(d[I^-])/dt`
b. `-(d[S_2O_8^(2-)])/dt`
c. `-(d[I_3^-])/dt`
The rate constant for the decomposition of N2O5 at various temperatures is given below:
| T/°C | 0 | 20 | 40 | 60 | 80 |
| 105 × k/s−1 | 0.0787 | 1.70 | 25.7 | 178 | 2140 |
Draw a graph between ln k and `1/T` and calculate the values of A and Ea. Predict the rate constant at 30º and 50ºC.
Define activation energy.
Calculate activation energy for a reaction of which rate constant becomes four times when temperature changes from 30 °C to 50 °C. (Given R = 8.314 JK−1 mol−1).
The reaction between \[\ce{H2(g)}\] and \[\ce{O2(g)}\] is highly feasible yet allowing the gases to stand at room temperature in the same vessel does not lead to the formation of water. Explain.
Total number of vibrational degrees of freedom present in CO2 molecule is
In respect of the eqn k = \[\ce{Ae^{{-E_a}/{RT}}}\] in chemical kinetics, which one of the following statement is correct?
The equation k = `(6.5 xx 10^12 "s"^(-1))"e"^(- 26000 " K"//"T")` is followed for the decomposition of compound A. The activation energy for the reaction is ______ kJ mol-1. (Nearest integer) (Given: R = 8.314 JK-1 mol-1)
The decomposition of N2O into N2 and O2 in the presence of gaseous argon follows second-order kinetics, with k = (5.0 × 1011 L mol−1 s−1) `"e"^(-(29000 "K")/"T")`. Arrhenius parameters are ______ kJ mol−1.
Which plot of ln k vs `1/T` is consistent with the Arrhenius equation?
