Advertisements
Advertisements
प्रश्न
The rate constant for the first-order reaction is given by log10 k = 14.34 – 1.25 × 104 T. Calculate activation energy of the reaction.
Advertisements
उत्तर
The given rate constant equation is
log10k = 14.34 – 1.25 × 104 T ...(1)
Arrhenius equation is
k = `"Ae"^((-"E"_"a")/("RT"))`
∴ In k = InA - `"E"_"a"/("RT")`
∴ log10k = log10A - `"E"_"a"/(2.303 "RT")` ...(2)
Comparing (1) and (2),
`"E"_"a"/(2.303 "RT") = 1.25 xx 10^4 "T"`
∴ `"E"_"a"/(2.303 "R") = 1.25 xx 10^4`
∴ `"E"_"a"/(2.303 xx 8.314) = 1.25 xx 10^4`
∴ Ea = 1.25 × 104 × 2.303 × R
∴ Ea = 1.25 × 104 × 2.303 × 8.314
= 23.93 × 104 J
= 239.3 kJ mol-1
The energy of activation of the reaction is 239.3 kJ mol-1
APPEARS IN
संबंधित प्रश्न
Answer the following in one or two sentences.
Write the Arrhenius equation and explain the terms involved in it.
Explain with the help of the Arrhenius equation, how do the rate of reaction changes with temperature.
Answer the following in brief.
How will you determine activation energy graphically using the Arrhenius equation?
Solve
What is the energy of activation of a reaction whose rate constant doubles when the temperature changes from 303 K to 313 K?
The rate constant of a reaction at 500°C is 1.6 × 103 M−1 s−1. What is the frequency factor of the reaction if its activation energy is 56 kJ/mol?
A catalyst lowers the activation energy of a certain reaction from 83.314 to 75 kJ mol−1 at 500 K. What will be the rate of reaction as compared to uncatalysed reaction? Assume other things are equal.
Which among the following equation represents Arrhenius equation?
Slope of the straight line obtained by plotting log10k against represents what term?
Explain with the help of Arrhenius equation, how does the rate of reaction changes with temperature.
Explain with the help of Arrhenius equation, how does the rate of reaction changes with activation energy.
Explain with the help of Arrhenius equation, how does the rate of reaction changes with temperature.
Explain with the help of Arrhenius equation, how does the rate of reaction changes with activation energy.
Explain, with the help of the Arrhenius equation, how does the rate of reaction changes with temperature.
Explain, with the help of the Arrhenius equation, how does the rate of reaction changes with activation energy.
Explain with the help of the Arrhenius equation, how do the rate of reaction changes with activation energy.
Explain with the help of Arrhenius equation, how does the rate of reaction changes with temperature.
Explain with the help of Arrhenius equation, how does the rate of reaction changes with activation energy.
Explain with the help of Arrhenius equation, how does the rate of reaction changes with activation energy.
Explain with the help of Arrhenius equation, how does the rate of reaction changes with temperature.
Explain with the help of Arrhenius equation, how does the rate of reaction changes with temperature.
Explain with the help of Arrhenius equation, how does the rate of reaction changes with activation energy.
