b. Fill in each of the reaction coordinate diagrams for the reaction described. A) An Endergonic...
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...
Energy m Reaction Coordinate The reaction is endergonic and the second step is the rate-determining step. The reaction is exergonic and the second step is the rate-determining step, The reaction is endergonic and the first step is the rate-determining step. The reaction is exergonic and the first step is the rate-determining step,
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...
points cach) 7. (ll points Given the reaction coordinate diagram for the reaction of A to form G, answer the follow Cand E B,D,F questions a How many intermediates are formed in the reaction? b. Which letters represent transition states? c. What is the fastest step in the reaction? d. Which is more stable: A or G? e Does A or E form faster from C? f. Which is the more stable intermediate? g. What is the reactant of the...
2. Given the reaction coordinate diagram below, answer the following questions: Free energy Progress of the reaction a) How many intermediates are formed in the reaction? b) Which letter(s) represent(s) a transition state? c) What is the fastest step in the reaction? d) Which is more stable: A or G? e) Does A or E form faster from C? f) Which is the most stable intermediate? g) What is the reactant of the rate-determining step? h) is the first step...
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...
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)...
(a)Explain what is exergonic reaction and what is endergonic reaction? (b) If a reaction is non-spontaneous (for example, synthesis of a peptide link is endergonic), how can we make that reaction possible? ( c) Explain why human body can be viewed as an intricate designed machine?
(a)Explain what is exergonic reaction and what is endergonic reaction? (b) If a reaction is non-spontaneous (for example, synthesis of a peptide link is endergonic), how can we make that reaction possible? ( c) Explain why human body can be viewed as an intricate designed machine?