Temperature Click above or below the line for B or Activation Energy: 22.14 kJ/mol the transition state to change their AE: -20.00 k)/mol 298 K energy. Initial Rate: Initial Concentration 1.00 mol/L React Clear 3000 time, s A B The initial settings have been restored if they were changed. Temperature = 298 K [A] = 1.00 M AE = -20.00 kJ E, = 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. Check Next (1 of 7) Energy - (1/jow) [v]

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...
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SIMULATION The Arrhenius Equation
Temperature
Click above or below the line for B or
Activation Energy: 22.14 kJ/mol
the transition state to change their
AE: -20.00 kJ/mol
298 K
energy.
Initial Rate:
Initial Concentration
1.00 mol/L
React
Clear
3000
time, s
В
This simulation explores the dependence of reaction rates by temperature, the reaction's activation energy, Ea, and the energy difference between products and reactants, AE. The simulation models a simple reaction where one mole of
reactant, A, is converted to one mole of product, B.
А — В
The temperature can be adjusted using the slider, as can the initial concentration of reactant, A. The energy of the transition state and of the product, B, can be adjusted by clicking above or below the lines representing those states on
the energy diagram. For example, the transition state energy is adjusted by clicking above or below the purple line. The energy of the reactant, A, cannot be adjusted.
To simulate the reaction, set the parameters and click the React button. A plot of [A] vs. time will be generated and the initial rate of the reaction noted numerically.
Next (Introduction)
Transcribed Image Text:SIMULATION The Arrhenius Equation Temperature Click above or below the line for B or Activation Energy: 22.14 kJ/mol the transition state to change their AE: -20.00 kJ/mol 298 K energy. Initial Rate: Initial Concentration 1.00 mol/L React Clear 3000 time, s В This simulation explores the dependence of reaction rates by temperature, the reaction's activation energy, Ea, and the energy difference between products and reactants, AE. The simulation models a simple reaction where one mole of reactant, A, is converted to one mole of product, B. А — В The temperature can be adjusted using the slider, as can the initial concentration of reactant, A. The energy of the transition state and of the product, B, can be adjusted by clicking above or below the lines representing those states on the energy diagram. For example, the transition state energy is adjusted by clicking above or below the purple line. The energy of the reactant, A, cannot be adjusted. To simulate the reaction, set the parameters and click the React button. A plot of [A] vs. time will be generated and the initial rate of the reaction noted numerically. Next (Introduction)
SIMULATION The Arrhenius Equation
Temperature
Click above or below the line for B or
the transition state to change their
Activation Energy: 22.14 kJ/mol
AE: -20.00 kJ/mol
298 K
energy.
Initial Rate:
Initial Concentration
1.00 mol/L
React
Clear
3000
time, s
A
В
The initial settings have been restored if they were changed.
Temperature = 298 K
[A] = 1.00 M
AE = -20.00 kJ
Ea = 22.14 k)
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.
Check
Next (1 of 7)
Energy -
[A] (mol/L)
Transcribed Image Text:SIMULATION The Arrhenius Equation Temperature Click above or below the line for B or the transition state to change their Activation Energy: 22.14 kJ/mol AE: -20.00 kJ/mol 298 K energy. Initial Rate: Initial Concentration 1.00 mol/L React Clear 3000 time, s A В The initial settings have been restored if they were changed. Temperature = 298 K [A] = 1.00 M AE = -20.00 kJ Ea = 22.14 k) 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. Check Next (1 of 7) Energy - [A] (mol/L)
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