User contributions for Bc1015

25 May 2017

• 16:1116:11, 25 May 2017 diff hist −16 MRD:BC physlab →1c) Report the activation energy for both reactions.
• 16:0916:09, 25 May 2017 diff hist +1 MRD:BC physlab →1c) Report the activation energy for both reactions.
• 16:0916:09, 25 May 2017 diff hist +17 MRD:BC physlab →1c) Report the activation energy for both reactions.
• 16:0116:01, 25 May 2017 diff hist +117 MRD:BC physlab →1b) Locate the approximate position of the transition state. Because the activation energy for one of the reactions is so small, it is not easy to locate the transition state immediately. Use the Hammond postulate to guide your search.
• 16:0016:00, 25 May 2017 diff hist 0 N File:1c4BC.PNG No edit summary current
• 16:0016:00, 25 May 2017 diff hist 0 N File:1c3BC.PNG No edit summary current
• 15:5915:59, 25 May 2017 diff hist 0 N File:1b5BC.PNG No edit summary current
• 15:3915:39, 25 May 2017 diff hist +34 MRD:BC physlab →Excercise 2
• 15:3715:37, 25 May 2017 diff hist 0 N File:1c1BC.PNG No edit summary current
• 15:3715:37, 25 May 2017 diff hist +103 MRD:BC physlab →1c) Report the activation energy for both reactions.
• 15:3615:36, 25 May 2017 diff hist −118 MRD:BC physlab →1c) Report the activation energy for both reactions.
• 15:3415:34, 25 May 2017 diff hist +176 MRD:BC physlab →References
• 15:3315:33, 25 May 2017 diff hist +66 MRD:BC physlab →1c) Report the activation energy for both reactions.
• 15:3015:30, 25 May 2017 diff hist +8 MRD:BC physlab /* 4) The cases studied are an illustration of Polanyi's empirical rules. Discuss how the distribution of energy between different modes (translation and vibration) affect the efficiency of the reaction, and how this is influenced by the position of th...
• 15:2715:27, 25 May 2017 diff hist −7 MRD:BC physlab /* 4) The cases studied are an illustration of Polanyi's empirical rules. Discuss how the distribution of energy between different modes (translation and vibration) affect the efficiency of the reaction, and how this is influenced by the position of th...
• 15:2615:26, 25 May 2017 diff hist +100 MRD:BC physlab /* 4) The cases studied are an illustration of Polanyi's empirical rules. Discuss how the distribution of energy between different modes (translation and vibration) affect the efficiency of the reaction, and how this is influenced by the position of th...
• 15:2215:22, 25 May 2017 diff hist +17 MRD:BC physlab /* 4) The cases studied are an illustration of Polanyi's empirical rules. Discuss how the distribution of energy between different modes (translation and vibration) affect the efficiency of the reaction, and how this is influenced by the position of th...
• 15:2215:22, 25 May 2017 diff hist +104 MRD:BC physlab →References
• 15:0215:02, 25 May 2017 diff hist +137 MRD:BC physlab /* 4) The cases studied are an illustration of Polanyi's empirical rules. Discuss how the distribution of energy between different modes (translation and vibration) affect the efficiency of the reaction, and how this is influenced by the position of th...
• 14:5914:59, 25 May 2017 diff hist +65 MRD:BC physlab →1c) Report the activation energy for both reactions.
• 14:5814:58, 25 May 2017 diff hist +36 MRD:BC physlab →1c) Report the activation energy for both reactions.
• 14:5814:58, 25 May 2017 diff hist +38 MRD:BC physlab →1c) Report the activation energy for both reactions.
• 14:5714:57, 25 May 2017 diff hist +146 MRD:BC physlab /* 2a) Identify a set of initial conditions that results in a reactive trajectory for the F + H2, and look at the “Animation” and “Internuclear Momenta vs Time”. In light of the fact that energy is conserved, discuss the mechanism of release of...
• 14:4914:49, 25 May 2017 diff hist +11 MRD:BC physlab →Excercise 2
• 14:4814:48, 25 May 2017 diff hist +93 MRD:BC physlab /* 2a) Identify a set of initial conditions that results in a reactive trajectory for the F + H2, and look at the “Animation” and “Internuclear Momenta vs Time”. In light of the fact that energy is conserved, discuss the mechanism of release of...
• 14:4214:42, 25 May 2017 diff hist +158 MRD:BC physlab →Excercise 2
• 14:4114:41, 25 May 2017 diff hist −65 MRD:BC physlab →1b) Locate the approximate position of the transition state. Because the activation energy for one of the reactions is so small, it is not easy to locate the transition state immediately. Use the Hammond postulate to guide your search.
• 14:4114:41, 25 May 2017 diff hist +8 MRD:BC physlab /* 2a) Identify a set of initial conditions that results in a reactive trajectory for the F + H2, and look at the “Animation” and “Internuclear Momenta vs Time”. In light of the fact that energy is conserved, discuss the mechanism of release of...
• 14:4114:41, 25 May 2017 diff hist +232 MRD:BC physlab →References
• 14:3814:38, 25 May 2017 diff hist +671 MRD:BC physlab /* 2a) Identify a set of initial conditions that results in a reactive trajectory for the F + H2, and look at the “Animation” and “Internuclear Momenta vs Time”. In light of the fact that energy is conserved, discuss the mechanism of release of...
• 14:2414:24, 25 May 2017 diff hist 0 N File:2aBC.PNG No edit summary current
• 14:1314:13, 25 May 2017 diff hist +1,647 MRD:BC physlab →Excercise 2
• 14:0814:08, 25 May 2017 diff hist +167 MRD:BC physlab →1c) Report the activation energy for both reactions.
• 14:0514:05, 25 May 2017 diff hist +44 MRD:BC physlab →Excercise 2
• 14:0414:04, 25 May 2017 diff hist −57 MRD:BC physlab →Excercise 2
• 14:0414:04, 25 May 2017 diff hist +80 MRD:BC physlab →Excercise 2
• 14:0414:04, 25 May 2017 diff hist −34 MRD:BC physlab →1b) Locate the approximate position of the transition state. Because the activation energy for one of the reactions is so small, it is not easy to locate the transition state immediately. Use the Hammond postulate to guide your search.
• 14:0414:04, 25 May 2017 diff hist +26 MRD:BC physlab →Excercise 2
• 14:0314:03, 25 May 2017 diff hist +70 MRD:BC physlab →Excercise 2
• 14:0214:02, 25 May 2017 diff hist +7 MRD:BC physlab →Excercise 2
• 14:0214:02, 25 May 2017 diff hist 0 N File:1b4BC.PNG No edit summary current
• 14:0114:01, 25 May 2017 diff hist 0 N File:1b3BC.PNG No edit summary current
• 14:0114:01, 25 May 2017 diff hist 0 N File:1b2BC.PNG No edit summary current
• 14:0114:01, 25 May 2017 diff hist 0 N File:1b1BC.PNG No edit summary current
• 14:0114:01, 25 May 2017 diff hist +18 MRD:BC physlab →Excercise 2
• 14:0014:00, 25 May 2017 diff hist +441 MRD:BC physlab →Excercise 2
• 13:5613:56, 25 May 2017 diff hist −19 MRD:BC physlab →1a) Classify the F + H2 and H + HF reactions according to their energetics (endothermic or exothermic). How does this relate to the bond strength of the chemical species involved?
• 13:5613:56, 25 May 2017 diff hist +647 MRD:BC physlab →1b) Locate the approximate position of the transition state. Because the activation energy for one of the reactions is so small, it is not easy to locate the transition state immediately. Use the Hammond postulate to guide your search.
• 13:4113:41, 25 May 2017 diff hist +229 MRD:BC physlab →1b) Locate the approximate position of the transition state. Because the activation energy for one of the reactions is so small, it is not easy to locate the transition state immediately. Use the Hammond postulate to guide your search.
• 13:3213:32, 25 May 2017 diff hist +27 MRD:BC physlab →Excercise 2