SIMULATION The Arrhenius EquationTemperature298 KInitial Concentration1.00 mol/LReact ClearClick above or below the line for B orthe transition state to change their energy.Recheck21st attemptEnergy →Next (1 of 7)BYour answer is too high.Activation Energy: 22.14 kJ/molAE: -20.00 kJ/molInitial Rate: 7.90 × 10-³ mol/L.s[A] (mol/L)The initial settings have been restored if they were changed.Temperature = 298 K[A] = 1.00 MAE = -20.00 kJE₁=22.14 kJRun the reaction. About what percentage of A is converted to B in the first 3000 seconds of the reaction? Enter your answer without the "%" sign.99.999% Xtime, sIncorrect3000PreviousNext>

We can get the idea about the order of reaction by looking at the nature of graph between…

Temperature 298 K Initial Concentration 1.00 mol/L React Clear Click above or below the line for B or the transition state to change their energy. ← Energy → A B Activation Energy: 22.14 kJ/mol AE: -20.00 kJ/mol Initial Rate: 7.90 × 10-³ mol/L.s [A] (mol/L) time, s 3000 The initial settings have been restored if they were changed. Temperature = 298 K [A] = 1.00 M ΔΕ = -20.00 kJ E₁=22.14 kJ Run the reaction. About what percentage of A is converted to B in the first 3000 seconds of the reaction? Enter your answer without the "%" sign. 99.999 % X

Temperature 298 K Initial Concentration 1.00 mol/L React Clear Click above or below the line for B or the transition state to change their energy. ← Energy → A B Activation Energy: 22.14 kJ/mol AE: -20.00 kJ/mol Initial Rate: 7.90 × 10-³ mol/L.s [A] (mol/L) time, s 3000 The initial settings have been restored if they were changed. Temperature = 298 K [A] = 1.00 M ΔΕ = -20.00 kJ E₁=22.14 kJ Run the reaction. About what percentage of A is converted to B in the first 3000 seconds of the reaction? Enter your answer without the "%" sign. 99.999 % X

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

See similar textbooks

Similar questions

Give typed explanation
Based on the diagrams as shown, which of the reactions has the fastest rate? Which has the slowest rate?
5 of 5 7. When a catalyst is added to a reaction the activation Energy is (increased or decreased), (more or less) energy is needed to react the new activated complex, and (more or less) collisions have sufficient energy to (increase or decrease) the reaction rate.
Calculate the instantaneous rate of the reaction (M/s), A + B ->C , where the rate constant is 5.64 x 102 M-1s-1? A has 0.054M concentration and the concentration of B is 0.043 M and the reaction is in second order relative to A and zero order relative to B. Balance the reaction as followsT TeO32- + N2O4 + H2O -> Te + NO3- + H+
1 and 2
* 97% 7:58 PM Wed Feb 12 х Unanswered •1 attempt left • Due on Feb 13 When the initial concentration of the reactant increases, the half life of a 1st order reaction will and the half life of a 2nd order reaction will increase, decrease B not change, decrease decrease, increase not change, increase increase, not change Submit ш
The initial concentration of a reactant is 0.580 M and the rate constant (k) is 0.0035 M-'s-1. Calculate the final concentration of the reactant after 11 minutes.
For a second order reaction, a plot of [A]/[A]o vs. k,[A]ot gives a curve with a negative slope. What is the rate law that supports this result? O [A]/[A]o = -* k t O [A]/[A]o = 1/(1+k,[A]ot) [A][[A]o = ek_ t O [A]/[A] = 1/k,[A]ot
The rate of reaction is halved when temperature decreases from 32 C to 25 C. What is the value of the activation energy of such a reaction? a. 63.8 kJ/mol b. -63.8 kJ/mol c. 52.9 kJ/mol c. -52.9 kJ/mol
A particular reaction has an activation energyof E a 189 k//mol . the rate constant for the reaction is 0.00205 457 degrees * C at what temperature (° would the rate constant be 0.200s ^ - 1
Considering the following diagram, the activation energy of the reverse reaction is about 160 120 80- Products 40 Reactants Reaction progress A) 60 kJ/mol B) 80 kJ/mol C) 130 kJ/mol D) 20 kJ/mol Energy (kJ/mol)
please answer all as they are part of 1 question but different questions,,.