For a reaction
For a reaction, activation energy Ea=0 and the rate constant at 200K is 1.6×10^6 s^−1. The rate constant at 400K will be- [Given that gas constant] R = 8.314 J K^−1 mol^−1
04
Jun
For a reaction, activation energy Ea=0 and the rate constant at 200K is 1.6×10^6 s^−1. The rate constant at 400K will be- [Given that gas constant] R = 8.314 J K^−1 mol^−1 activation energy Ea=0 and the rate constant at 200K is 1.6×10^6 s^−1. The rate constant at 400K will be- [Given that gas constant] [...]
For a reaction ,A+B→Product the rate law is : Rate = k[A][B]^3/2 Can the reaction be an elementary reaction ? Explain.
04
Jun
For a reaction ,A+B→Product the rate law is : Rate = k[A][B]^3/2 Can the reaction be an elementary reaction ? Explain. A+B→Product the rate law is : Rate = k[A][B]^3/2 Can the reaction be an elementary reaction ? Explain. For a reaction June 4, 2021 Category: Chemistry , NCERT Exemplar Class 11 ,
For a reaction, A⇌B equilibrium constant is 1.66 and k forward = 0.166 hr^-1. Calculate the time (in hours) when concentration of B is 80% of its equilibrium concentration. (Given: ln 25 = 320).
03
Jun
For a reaction, A⇌B equilibrium constant is 1.66 and k forward = 0.166 hr^-1. Calculate the time (in hours) when concentration of B is 80% of its equilibrium concentration. (Given: ln 25 = 320). A⇌B equilibrium constant is 1.66 and k forward = 0.166 hr^-1. Calculate the time (in hours) when concentration of B is [...]
For a reaction, consider the plot of In K versus 1/T given in the figure. If the rate constant of this reaction at 400 K is 10^-5 s^-1, then the rate constant at 500K is
02
Jun
For a reaction, consider the plot of In K versus 1/T given in the figure. If the rate constant of this reaction at 400 K is 10^-5 s^-1, then the rate constant at 500K is consider the plot of In K versus 1/T given in the figure. If the rate constant of this reaction at [...]
For a reaction, A ⇋ P, the plots of [A] and [P] with time at temperatures T1 and T2 are given below. (Assume ΔHθ and ΔSθ are independent of temperature and ratio of ln K at T1 to ln K at T2 is greater than T2/T1 . Here H, S, G and K are enthalpy, entropy, Gibbs energy and equilibrium constant, respectively.)
02
Jun
For a reaction, A ⇋ P, the plots of [A] and [P] with time at temperatures T1 and T2 are given below. (Assume ΔHθ and ΔSθ are independent of temperature and ratio of ln K at T1 to ln K at T2 is greater than T2/T1 . Here H, S, G and K are enthalpy, [...]
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Chapter 7 - Equilibrium
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JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019
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A ⇋ P ,
entropy ,
For a reaction ,
G and K are enthalpy ,
Gibbs energy and equilibrium constant ,
respectively ,
S ,
the plots of [A] and [P] with time at temperatures T1 and T2 are given below. (Assume ΔHθ and ΔSθ are independent of temperature and ratio of ln K at T1 to ln K at T2 is greater than T2/T1 . Here H ,
For a reaction, the value of Kp increases with increase n temperature. The ΔH for the reaction would be :
11
Nov
For a reaction, the value of Kp increases with increase n temperature. The ΔH for the reaction would be : For a reaction the value of Kp increases with increase n temperature. The ΔH for the reaction would be : November 11, 2020 Category: Chapter 5 - Chemical Equilibrium (Level 1 and Level 2) , [...]