User contributions for Gd1118

15 May 2020

• 15:3915:39, 15 May 2020 diff hist +33 Gd1118yr2 →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
• 15:3815:38, 15 May 2020 diff hist +496 Gd1118yr2 No edit summary
• 15:2215:22, 15 May 2020 diff hist +3 Gd1118yr2 No edit summary
• 15:0815:08, 15 May 2020 diff hist +167 Gd1118yr2 No edit summary
• 15:0115:01, 15 May 2020 diff hist +1 Gd1118yr2 →Report the activation energy for both reactions Tag: Visual edit
• 15:0015:00, 15 May 2020 diff hist +149 Gd1118yr2 →Report the activation energy for both reactions
• 14:5814:58, 15 May 2020 diff hist +13 Gd1118yr2 →Report the activation energy for both reactions Tag: Visual edit
• 14:5614:56, 15 May 2020 diff hist 0 Gd1118yr2 →Report the activation energy for both reactions
• 14:5514:55, 15 May 2020 diff hist 0 N File:Gd1118y2j.png No edit summary current
• 14:5414:54, 15 May 2020 diff hist 0 N File:Gd1118y2i.png No edit summary current
• 14:5314:53, 15 May 2020 diff hist 0 Gd1118yr2 →Report the activation energy for both reactions
• 14:4614:46, 15 May 2020 diff hist +362 Gd1118yr2 →Report the activation energy for both reactions Tag: Visual edit
• 14:3514:35, 15 May 2020 diff hist +11 Gd1118yr2 →Report the activation energy for both reactions Tag: Visual edit
• 14:3414:34, 15 May 2020 diff hist 0 Gd1118yr2 →Report the activation energy for both reactions
• 14:3414:34, 15 May 2020 diff hist 0 Gd1118yr2 →Report the activation energy for both reactions
• 14:3314:33, 15 May 2020 diff hist 0 Gd1118yr2 →Report the activation energy for both reactions
• 14:3314:33, 15 May 2020 diff hist 0 Gd1118yr2 →Report the activation energy for both reactions
• 14:3214:32, 15 May 2020 diff hist 0 N File:Gd1118y2h.png No edit summary current
• 14:3114:31, 15 May 2020 diff hist 0 N File:Gd1118y2f.png No edit summary current
• 14:3014:30, 15 May 2020 diff hist +81 Gd1118yr2 →Report the activation energy for both reactions
• 14:2914:29, 15 May 2020 diff hist +114 Gd1118yr2 →Report the activation energy for both reactions
• 14:1514:15, 15 May 2020 diff hist +62 Gd1118yr2 No edit summary
• 14:1414:14, 15 May 2020 diff hist +3 Gd1118yr2 →Locate the approximate position of the transition state.
• 14:1314:13, 15 May 2020 diff hist +3 Gd1118yr2 →Locate the approximate position of the transition state.
• 14:1314:13, 15 May 2020 diff hist +103 Gd1118yr2 →Locate the approximate position of the transition state. Tag: Visual edit
• 13:1213:12, 15 May 2020 diff hist +21 Gd1118yr2 →Locate the approximate position of the transition state.
• 13:1013:10, 15 May 2020 diff hist +409 Gd1118yr2 →Locate the approximate position of the transition state.
• 13:0913:09, 15 May 2020 diff hist +130 Gd1118yr2 →Locate the approximate position of the transition state.
• 12:5512:55, 15 May 2020 diff hist −82 Gd1118yr2 →Locate the approximate position of the transition state.
• 12:5512:55, 15 May 2020 diff hist +82 Gd1118yr2 No edit summary
• 12:5212:52, 15 May 2020 diff hist 0 N File:Gd1118y2d.png No edit summary current
• 12:5112:51, 15 May 2020 diff hist 0 N File:Gd1118y2c.png No edit summary current
• 12:5012:50, 15 May 2020 diff hist +58 Gd1118yr2 No edit summary
• 12:4112:41, 15 May 2020 diff hist +71 Gd1118yr2 No edit summary
• 12:3912:39, 15 May 2020 diff hist +4 Gd1118yr2 →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?
• 12:3812:38, 15 May 2020 diff hist +33 Gd1118yr2 →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?
• 12:3612:36, 15 May 2020 diff hist +640 Gd1118yr2 →Exercise 2 Tag: Visual edit
• 12:1912:19, 15 May 2020 diff hist 0 N File:Gd1118y2b.png No edit summary current
• 12:1512:15, 15 May 2020 diff hist 0 N File:Gd1118y2a.png No edit summary current
• 12:1412:14, 15 May 2020 diff hist +290 Gd1118yr2 →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?
• 10:3810:38, 15 May 2020 diff hist +12 Gd1118yr2 →Exercise 2 Tag: Visual edit
• 10:3710:37, 15 May 2020 diff hist +257 Gd1118yr2 No edit summary Tag: Visual edit

14 May 2020

• 23:4923:49, 14 May 2020 diff hist +6 Gd1118yr2 →Complete the table above 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? Tag: Visual edit
• 23:4823:48, 14 May 2020 diff hist +1,028 Gd1118yr2 →Given the results you have obtained, how will Transition State Theory predictions for reaction rate values compare with experimental values? Tag: Visual edit
• 23:0923:09, 14 May 2020 diff hist +156 Gd1118yr2 No edit summary
• 23:0823:08, 14 May 2020 diff hist +438 Gd1118yr2 →Complete the table above 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? Tag: Visual edit
• 22:4022:40, 14 May 2020 diff hist +184 Gd1118yr2 →Complete the table above 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? Tag: Visual edit
• 22:3522:35, 14 May 2020 diff hist +218 Gd1118yr2 →Complete the table above 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?
• 22:3122:31, 14 May 2020 diff hist +1 Gd1118yr2 →Complete the table above 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?
• 22:3122:31, 14 May 2020 diff hist +236 Gd1118yr2 →Complete the table above 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?