The activation energy for the gas phase isomerization of vinyl allyl ether is 128 kJ. CH2CH-0-CH2CH=CH2CH2CHCH,CH2CHO The rate constant at 449 K is 0.000250 /s. The rate constant will be 0.00227 /s at К. Submit Answer Retry Entire Group 8 more group attempts remaining

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**Arrhenius Equation Calculations** **Topic:** Kinetics - Gas Phase Isomerization of Vinyl Allyl Ether **Activation Energy:** The activation energy for the isomerization process is 128 kJ/mol. **Reaction Equation:** \[ \text{CH}_2\text{CH-O-CH}_2\text{CH=CH}_2 \rightarrow \text{CH}_2\text{CHCH}_2\text{CH}_2\text{CHO} \] **Problem Statement:** - Calculate the temperature at which the rate constant will change from \(0.000250\, /s\) at 449 K to \(0.00227\, /s\). **Instructions:** 1. Use the Arrhenius Equation to determine the required temperature. 2. Review relevant kinetics concepts to ensure accurate calculations. **Interactive Questions:** - Utilize the given activation energy and rate constants to solve for unknown temperature. - Use the provided tools to enter and check your answers. **Note:** Access to reference materials is recommended for solving the problem effectively. **Graphical/Diagram Information:** - No explicit graphs or diagrams are provided in the image. - Questions are part of an interactive online educational module under the Kinetics chapter. **Additional Tools:** - Navigation pane on the left displays sections of the kinetic module and progress tracking. - Submit your answer or retry the group of questions if necessary, with multiple attempts allowed.