(b) The structure of alcohol will react faster
(c)
2. Consider the reaction below: OH H2SO4 (cat) Draw a reaction coordinate diagram for the reaction....
4. Draw a free energy reaction coordinate diagram for both a generic endergonic and a generic exergonic reaction (label each). Make sure to label the x- and y-axes. Now label where reactants and products should go on the figure. Draw something that illustrates the free energy change for each reaction. Now write something like the following next to your figures: “reactants <—> products”. a. What do the reaction coordinate diagrams have to do with the text you just wrote? b. What...
6. All parts of this question relate to the following reaction coordinate diagram, for the reaction A + B + C -- --> D+E Free Energy B+C+X D+E A+B+C (a) Write a mechanism for the forward reaction, showing all elementary steps. (b) What intermediates (ie, not reactants or products) are present in this mechanism? (a) Write a mechanism for the forward reaction, showing all elementary steps. (b) What intermediates (i.e, not reactants or products) are present in this mechanism? (e)...
2. Draw an energy diagram for the first reaction in problem #1. Label the axis, reactants, products, any intermediates (if needed) and transition states. Than indicate using dotted a line how the diagram would change if CH,CH2OH was used as the solvent instead of acetone. 3. Draw the mechanism showing how the following molecule can best be produced using a SN2 reaction (the molecule shown below is the product, you need to determine the proper reactants (RX and Nu)).
65. Draw the product of the following dehydration reaction. H2SO4 OH Ans: 68. Draw the mechanism for the following dehydration. LOH H2SO4 Ans: 71. Draw an energy diagram for the following reaction, assuming that it is exothermic. OH H2SO4 Ans: 73. What are the steps of arrow pushing involved in the following mechanism? ОН H2SO4 Ans:
action coordinate diagram, for the reaction 0. All parts of this question relate to the following reaction coordinate diagram A+B+C ....... D+ E Energy B+C+X D+E A+B+C (a) Write a mechanism for the forward reaction, showing all elementary steps. (b) What intermediates (ie, not reactants or products) are present in this mechanism? (c) Which is the rate determining step for the reaction? (d) Mark the activation energy for the rate-determining step on the diagram above. (e) What is the rate...
Draw the mechanism for the below reaction. Then, draw a reaction coordinate diagram for your mechanism. НО НО Hао® H2о
Press Esc to exit full screen Consider the reaction below. 6. CH3OH Br a. Give a complete curved-arrow reaction mechanism b. Draw the reaction-coordinate diagram for this reaction Draw the transition state for the carbocation rearrangement. c. d. What is the driving force for this carbocation rearrangement? Press Esc to exit full screen Consider the reaction below. 6. CH3OH Br a. Give a complete curved-arrow reaction mechanism b. Draw the reaction-coordinate diagram for this reaction Draw the transition state for...
5) The diagram below represents the energy diagram for the reaction of 1-butyl chloride with water. On the diagram, draw and indicate the position of each of the following: (0.9 points) a) structures of reactants, products, and intermediates (indicate the position of each on the diagram) b) indicate the positions of all transition states (label as "TS") c) indicate the activation energy of the rate-determining step (label as Ea) Energy Reaction Coordinate 6) Below is an energy diagram that represents...
9. Give the curved arrow mechanism for each reaction. H2SO4 b. H,o OH c. H20 H2SO d. OH H2o 10. For the following reaction, H,so, H,O он a. Give the curved arrow mechanism for the reaction, showing formation of both products b. Identify the major product and explain why it is favored. c. Draw the energy diagram for the formation of the major product. 11. Give the major organic product for the following reactions. If a racemic mixture is expected,...
The reaction below proceeds through an exothermic E2 mechanism. Draw the reaction coordinate diagram for this reaction, and label all activation energies, delta Gs, and transition states. Draw the structures of the starting materials, products, and any interediates onto your chart where they belong NaH Br