2) Draw a reaction coordinate diagram for the following reaction. Be sure to label any transition states or intermed...
2) Draw a reaction coordinate diagram for the following reaction. Be sure to label any transition states or intermediates. (4 points) NaSH Br SH
11.Draw a reaction coordinate diagram for the following reaction. Remember to include products. 2 points NaOET Br 12. Identify the transition state for problem question 11. 3 points 13. Which reaction coordinate is predicted to have intermediates? Circle the correct answer choice. 2 points SN2 or SNI
34) How many transition states are present in the following reaction diagram? Reaction Coordinate - B) 1 A) 3 C)2 D) 4 E) 5
3. Answer the following questions based on the reaction coordinate diagram below: Reaction pathway a. How many transition states are present? Label on the diagram. b. How many intermediates are present? Label on the diagram. c. Is the reaction endergonic or exergonic? d. What is the rate-limiting step for this reaction?
3. Answer the following questions based on the reaction coordinate diagram below: Reaction pathway a. How many transition states are present? Label on the diagram. b. How many intermediates are present? Label on the diagram. c. Is the reaction endergonic or exergonic? d. What is the rate-limiting step for this reaction? 5. The decomposition of SO2CI2 into SO2 and Cl2 is first order in [SO2CI2) a. What is the rate if [SO2Cl2)- 0.2M C, the rate constant is 2.2 x...
2. Draw a labeled reaction-energy diagram (graph of potential energy versus reaction coordinate) for a three-step overall exothermic reaction with the A. first step being the rate-determining step B. third step being the rate-determining step Label each graph with the following: reactants (r), transition states (ts.), intermediates (int.), products (p). activation energies (Ea), and overall standard heat of reaction (AH). (Note: Each subscript, x, needs to be a number that refers to the appropriate primary mechanistic step. For example, Ea,...
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)).
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
Draw a labelled reaction coordinate diagram for the both SN reactions. Label the activation energy (free energy of activation) and give the approximate structures of the intimal state, the transition states, the intermediate and product at the correct points along the reaction coordinate. Also, can you decide on the basis of the kinetic expression whether the t-butyl chloride-hydroxide ion reaction proceeds by a one-step or a two-step mechanism? Explain why observed kinetic expression is consistent with the mechanism you chose.
How many transition states are depicted in the below reaction coordinate diagram? energy w 1 reaction coordinate two three four five