User contributions for Lec17

17 May 2019

• 16:0416:04, 17 May 2019 diff hist 0 N File:HFHvibrational.png No edit summary current
• 16:0416:04, 17 May 2019 diff hist 0 N File:HFHtranslational.png No edit summary current
• 16:0316:03, 17 May 2019 diff hist +958 MRD:lec17 →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 the transition state.
• 12:0312:03, 17 May 2019 diff hist 0 N File:H2Ftranslational.png No edit summary current
• 12:0212:02, 17 May 2019 diff hist 0 N File:H2Fvibrational.png No edit summary current
• 12:0212:02, 17 May 2019 diff hist +967 MRD:lec17 →Reaction dynamics

16 May 2019

• 15:2315:23, 16 May 2019 diff hist +712 MRD:lec17 →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 the transition state. Tag: Visual edit
• 14:4214:42, 16 May 2019 diff hist +181 MRD:lec17 →In light of the fact that energy is conserved, discuss the mechanism of release of the reaction energy. Explain how this could be confirmed experimentally. Tag: Visual edit
• 14:3814:38, 16 May 2019 diff hist 0 MRD:lec17 →Reaction dynamics
• 14:3714:37, 16 May 2019 diff hist 0 MRD:lec17 →Reaction dynamics
• 14:3714:37, 16 May 2019 diff hist 0 N File:Energyvstime.png No edit summary current
• 14:3714:37, 16 May 2019 diff hist +333 MRD:lec17 →In light of the fact that energy is conserved, discuss the mechanism of release of the reaction energy. Explain how this could be confirmed experimentally.
• 14:2514:25, 16 May 2019 diff hist +159 MRD:lec17 →In light of the fact that energy is conserved, discuss the mechanism of release of the reaction energy. Explain how this could be confirmed experimentally.
• 14:2014:20, 16 May 2019 diff hist −35 MRD:lec17 →EXERCISE 2: F - H - H system
• 14:1914:19, 16 May 2019 diff hist +158 MRD:lec17 →EXERCISE 2: F - H - H system
• 14:1714:17, 16 May 2019 diff hist 0 N File:Momentum.png No edit summary current
• 14:1614:16, 16 May 2019 diff hist +245 MRD:lec17 →In light of the fact that energy is conserved, discuss the mechanism of release of the reaction energy. Explain how this could be confirmed experimentally. Tag: Visual edit
• 13:3613:36, 16 May 2019 diff hist +68 MRD:lec17 →Report the activation energy for both reactions. Tag: Visual edit
• 13:3413:34, 16 May 2019 diff hist 0 MRD:lec17 →Report the activation energy for both reactions.
• 13:3413:34, 16 May 2019 diff hist 0 MRD:lec17 →Report the activation energy for both reactions.
• 13:3413:34, 16 May 2019 diff hist 0 MRD:lec17 →Report the activation energy for both reactions.
• 13:3313:33, 16 May 2019 diff hist +9 MRD:lec17 →Report the activation energy for both reactions.
• 13:3213:32, 16 May 2019 diff hist +84 MRD:lec17 →Report the activation energy for both reactions.
• 13:2813:28, 16 May 2019 diff hist 0 N File:F H2 EA.png No edit summary current
• 13:0113:01, 16 May 2019 diff hist 0 N File:FHHEA.png No edit summary current
• 13:0013:00, 16 May 2019 diff hist +110 MRD:lec17 →EXERCISE 2: F - H - H system
• 12:5912:59, 16 May 2019 diff hist +58 MRD:lec17 →Report the activation energy for both reactions.
• 12:3412:34, 16 May 2019 diff hist +190 MRD:lec17 →Locate the approximate position of the transition state. Tag: Visual edit
• 12:3112:31, 16 May 2019 diff hist +237 MRD:lec17 →Locate the approximate position of the transition state. Tag: Visual edit
• 12:2912:29, 16 May 2019 diff hist −4 MRD:lec17 →Locate the approximate position of the transition state.
• 12:2812:28, 16 May 2019 diff hist 0 N File:IDvsTHHF.png No edit summary current
• 12:2212:22, 16 May 2019 diff hist +31 MRD:lec17 →EXERCISE 2: F - H - H system
• 12:2112:21, 16 May 2019 diff hist +14 MRD:lec17 →Locate the approximate position of the transition state.
• 12:2112:21, 16 May 2019 diff hist +61 MRD:lec17 →EXERCISE 2: F - H - H system
• 12:1912:19, 16 May 2019 diff hist +5 MRD:lec17 →Locate the approximate position of the transition state. Tag: Visual edit
• 12:1712:17, 16 May 2019 diff hist +1 MRD:lec17 →Locate the approximate position of the transition state.
• 12:1612:16, 16 May 2019 diff hist +36 MRD:lec17 →Locate the approximate position of the transition state.
• 12:1612:16, 16 May 2019 diff hist 0 N File:ID vs T HHF.png No edit summary current
• 09:4309:43, 16 May 2019 diff hist 0 MRD:lec17 →PES inspection
• 09:4209:42, 16 May 2019 diff hist +55 MRD:lec17 →Complete the table below by adding the total energy, whether the trajectory is reactive or unreactive, and provide a plot of the trajectory and a small description for what happens along the trajectory. What can you conclude from the table?
• 09:4109:41, 16 May 2019 diff hist 0 MRD:lec17 →Dynamics from the transition state region
• 09:4009:40, 16 May 2019 diff hist +22 MRD:lec17 →Dynamics from the transition state region
• 09:3909:39, 16 May 2019 diff hist +292 MRD:lec17 →Locate the approximate position of the transition state. Tag: Visual edit
• 09:2309:23, 16 May 2019 diff hist +65 MRD:lec17 →Report your best estimate of the transition state position (rts) and explain your reasoning illustrating it with a “Internuclear Distances vs Time” plot for a relevant trajectory. Tag: Visual edit
• 09:2209:22, 16 May 2019 diff hist +775 MRD:lec17 →By inspecting the potential energy surfaces, 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? Tag: Visual edit
• 09:1509:15, 16 May 2019 diff hist 0 MRD:lec17 →By inspecting the potential energy surfaces, 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?
• 09:1009:10, 16 May 2019 diff hist 0 MRD:lec17 →By inspecting the potential energy surfaces, 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?
• 09:1009:10, 16 May 2019 diff hist +198 MRD:lec17 →By inspecting the potential energy surfaces, 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?
• 09:0809:08, 16 May 2019 diff hist 0 N File:Surface PlotHHF.png No edit summary current
• 09:0809:08, 16 May 2019 diff hist 0 N File:Surface PlotFHH.png No edit summary current