User contributions for Pt1118

22 May 2020

• 13:3113:31, 22 May 2020 diff hist 0 N File:Reactiondynamicspt1118.png No edit summary current
• 13:3113:31, 22 May 2020 diff hist −261 MRD:01547559 →Question 4: 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.
• 12:3312:33, 22 May 2020 diff hist −22 MRD:01547559 →Question 4: 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.
• 11:4611:46, 22 May 2020 diff hist +22 MRD:01547559 →Question 4: 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.
• 11:4411:44, 22 May 2020 diff hist +773 MRD:01547559 →Question 4: 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.
• 11:0911:09, 22 May 2020 diff hist +93 MRD:01547559 →Question 3: Report the activation energy for both reactions.
• 11:0111:01, 22 May 2020 diff hist 0 MRD:01547559 →Question4: 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.
• 10:5910:59, 22 May 2020 diff hist −28 MRD:01547559 →Question 3: Comment on how the mep and the trajectory you just calculated differ.
• 10:5710:57, 22 May 2020 diff hist +228 MRD:01547559 →Exercise 1
• 10:5410:54, 22 May 2020 diff hist +346 MRD:01547559 →Question 3: Comment on how the mep and the trajectory you just calculated differ.
• 10:5310:53, 22 May 2020 diff hist +57 MRD:01547559 →Exercise 1
• 10:5010:50, 22 May 2020 diff hist +399 MRD:01547559 →Question 3: Report the activation energy for both reactions.
• 10:4910:49, 22 May 2020 diff hist 0 N File:MEPAEpt1118.png No edit summary current
• 10:4810:48, 22 May 2020 diff hist 0 N File:MEPAE2pt1118.png No edit summary current
• 10:4410:44, 22 May 2020 diff hist +807 MRD:01547559 →Question 3: Report the activation energy for both reactions.
• 10:3510:35, 22 May 2020 diff hist +692 MRD:01547559 →Exercise 2
• 10:3010:30, 22 May 2020 diff hist +139 MRD:01547559 →Question 3: Report the activation energy for both reactions.
• 10:2510:25, 22 May 2020 diff hist +63 MRD:01547559 →Question 3: Comment on how the mep and the trajectory you just calculated differ.
• 10:1510:15, 22 May 2020 diff hist 0 N File:Screen Shot 2020-05-22 at 11.14.01.png No edit summary current
• 09:5309:53, 22 May 2020 diff hist +1 MRD:01547559 →Question 3:Comment on how the mep and the trajectory you just calculated differ.
• 09:5309:53, 22 May 2020 diff hist +1 MRD:01547559 →Question 4:Complete the table 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?
• 09:5309:53, 22 May 2020 diff hist +1 MRD:01547559 →Question 3:Report the activation energy for both reactions.
• 09:5309:53, 22 May 2020 diff hist +756 MRD:01547559 →Question4: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.
• 09:3309:33, 22 May 2020 diff hist +34 MRD:01547559 →Exercise 1
• 09:3209:32, 22 May 2020 diff hist 0 MRD:01547559 →Question4: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.
• 09:2309:23, 22 May 2020 diff hist +77 MRD:01547559 →Question4: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.
• 09:2309:23, 22 May 2020 diff hist +330 MRD:01547559 →Exercise 2

21 May 2020

• 20:1520:15, 21 May 2020 diff hist −1 MRD:01547559 /* Question 1/2: 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? Locate the app...
• 20:1420:14, 21 May 2020 diff hist +5 MRD:01547559 /* Question 1/2: 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? Locate the app...
• 20:1320:13, 21 May 2020 diff hist +85 MRD:01547559 /* Question 1/2: 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? Locate the app...
• 20:1020:10, 21 May 2020 diff hist +16 MRD:01547559 →Question 3:Comment on how the mep and the trajectory you just calculated differ.
• 20:0820:08, 21 May 2020 diff hist +5 MRD:01547559 →Question 3:Comment on how the mep and the trajectory you just calculated differ.
• 20:0720:07, 21 May 2020 diff hist +206 MRD:01547559 →Question 3:Comment on how the mep and the trajectory you just calculated differ.
• 20:0420:04, 21 May 2020 diff hist +130 MRD:01547559 →Question 5: Given the results you have obtained, how will Transition State Theory predictions for reaction rate values compare with experimental values?
• 20:0220:02, 21 May 2020 diff hist −77 MRD:01547559 →Question 4:Complete the table 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?
• 19:5819:58, 21 May 2020 diff hist +267 MRD:01547559 →Question 4:Complete the table 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?
• 19:5419:54, 21 May 2020 diff hist −76 MRD:01547559 →Question 4:Complete the table 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?
• 19:5319:53, 21 May 2020 diff hist +2 MRD:01547559 →Exercise 2
• 19:5319:53, 21 May 2020 diff hist +432 MRD:01547559 →Question 3:Comment on how the mep and the trajectory you just calculated differ.
• 19:5319:53, 21 May 2020 diff hist 0 N File:Finalinternuclearpt1118.png No edit summary current
• 19:5219:52, 21 May 2020 diff hist 0 N File:Finalmomentapt1118.png No edit summary current
• 19:4719:47, 21 May 2020 diff hist +320 MRD:01547559 →Question 3:Comment on how the mep and the trajectory you just calculated differ.
• 19:4319:43, 21 May 2020 diff hist 0 N File:Momenta2pt1118.png No edit summary current
• 19:4219:42, 21 May 2020 diff hist +490 MRD:01547559 →Question 3:Comment on how the mep and the trajectory you just calculated differ.
• 19:4219:42, 21 May 2020 diff hist 0 N File:Internuclear2pt1118.png No edit summary current
• 19:4119:41, 21 May 2020 diff hist 0 N File:Internuclear1pt1118.png No edit summary current
• 19:4119:41, 21 May 2020 diff hist 0 File:Momenta1pt1118.png Pt1118 uploaded a new version of File:Momenta1pt1118.png current
• 19:4119:41, 21 May 2020 diff hist 0 N File:Momenta1pt1118.png No edit summary
• 19:3219:32, 21 May 2020 diff hist +106 MRD:01547559 →Molecular Reaction Dynamics: Applications to triatomic systems
• 19:2219:22, 21 May 2020 diff hist +276 MRD:01547559 →Question 3:Comment on how the mep and the trajectory you just calculated differ.