For reaction A + BC = AB + C, please a. show your schematic drawing of Ea (activation energy) and explain the meaning of Ea. (5%) b. How to obtain Ea from Arrhenius plot? Show your process and schematic drawing. (5%) C. For the above reaction, if we know kA at 400K is 10 s¹, the activation energy is 831, please calculate kA at 600K. Gas constant R = 8.31 (10%) For reaction A + BC = AB + C, please a. show your schematic drawing of Ea (activation energy) and explain the meaning of Ea. (5%) b. How to obtain Ea from Arrhenius plot? Show your process and schematic drawing. (5%) C. For the above reaction, if we know kA at 400K is 10 s¹, the activation energy is 831, please calculate kA at 600K. Gas constant R = 8.31 (10%)

For reaction A + BC = AB + C, please a. show your schematic drawing of Ea (activation energy) and explain the meaning of Ea. (5%) b. How to obtain Ea from Arrhenius plot? Show your process and schematic drawing. (5%) C. For the above reaction, if we know kA at 400K is 10 s¹, the activation energy is 831, please calculate kA at 600K. Gas constant R = 8.31 (10%) For reaction A + BC = AB + C, please a. show your schematic drawing of Ea (activation energy) and explain the meaning of Ea. (5%) b. How to obtain Ea from Arrhenius plot? Show your process and schematic drawing. (5%) C. For the above reaction, if we know kA at 400K is 10 s¹, the activation energy is 831, please calculate kA at 600K. Gas constant R = 8.31 (10%)

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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The following reaction energy diagram depicts another key atmospheric reaction. Label the axes, Ea (fwd), Ea (rev). and AH rxn, and transition state, and calculate the Ea (rev). * 20H 3 78 kJ 6 72 kJ O+ H20 2 1 = Potential energy; 2 = Reaction progress; 3 = Ea (fwd); 4 = transition state; 5 = Ea (rev); 6 =AH rxn; Ea (rev) = 6 kJ 1 = Potential energy; 2 = Reaction progress; 3 = Ea (rev); 4 = transition state; 5 = Ea (fwd); 6 =AH rxn; Ea (rev) = -6 kJ 1 = Reaction progress; 2 =Potential energy ; 3 = Ea (fwd); 4 = transition state; 5 = Ea (rev); 6 =AH rxn; Ea (rev) = 6 kJ 1 = Reaction progress; 2 =Potential energy ; 3 = Ea (rev); 4 = transition state; 5 = Ea (fwd); 6 =AH rxn; Ea (rev) = -6 kJ
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MISSED THIS? Watch KCV 15.8. WE 15.9, Read Section 15.8. You can click on the Review link to access the section in your eText. Consider the following reaction: CO(g) + H₂O(g) = CO(g) + H₂(g) K,-0.0611 at 2000 K A reaction modure initially contains a CO partial pressure of 1370 torr and a H₂O partial pressure of 1740 torr at 2000 K Part A Calculate the equilibrium partial pressure of CO₂. Express the pressure in torr to three significant figures. 1951 ΑΣΦ Pco, 291.0 Submit Previous Answers Request Answer Peo X Incorrect: Try Again; 18 attempts remaining After converting the initial pressures to atm you should obtain the following ICE table to organize your data Po Initial Change Equilibrium 1.8026- 1.8026 2.2005 Peo, P 0.0 0.0 -F +2 2.2895-r x ? I torr Substitute the terms in the Equilibrium row into the equilibrium-constant expression, and then solve the resulting quadratic equation
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