Learning Target 9 Criteria for satisfactory score Elementary mechanistic steps must be correctly identified. All curved arrows must be unambiguous and correctly repre- sent the depicted mechanism. The answer must include a molecular/orbital drawing where specified. Tasks 1. Draw curved arrow(s) for the following mechanism (draw lone pair of electrons where relevant) and classify each reaction step as one of the four elementary ionic reaction patterns (numbers in circles). 2. Explain what is the reason for 1,2-hydride shift that converts carbocation A to carbocation B? Molecular/orbital drawing must be used as part of the answer. 2 H -H20 + H-I H20 carbocation A carbocation B H20 + H,o* heat carbocation B Figure 7: Multi-step reaction sequence

Learning Target 9 Criteria for satisfactory score Elementary mechanistic steps must be correctly identified. All curved arrows must be unambiguous and correctly repre- sent the depicted mechanism. The answer must include a molecular/orbital drawing where specified. Tasks 1. Draw curved arrow(s) for the following mechanism (draw lone pair of electrons where relevant) and classify each reaction step as one of the four elementary ionic reaction patterns (numbers in circles). 2. Explain what is the reason for 1,2-hydride shift that converts carbocation A to carbocation B? Molecular/orbital drawing must be used as part of the answer. 2 H -H20 + H-I H20 carbocation A carbocation B H20 + H,o* heat carbocation B Figure 7: Multi-step reaction sequence

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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Please also draw the two products from step 1 and the curved arrow notation for an SN2 reaction involving Br- in the final box, the final two structures formed after the SN2 reaction described in Step 2
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of of 11. For each of the following reactions, predict whether Syl or Sy2 will be the primary substitution mechanism. (Circle one) Br Nal in H20 SN2 LNS Br HO HO SN1 or SN2 NaČN in DMSO SN2 Br INS
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Deuterium (D) is an isotope of H. Both D and H have one proton and one electron; H has no neutrons and D has one. Consequently, D and H have nearly identical behavior, but they can be distinguished from each other experimentally due to their different masses. Therefore, replacing an H with a D in a molecule-deuterium isotope labeling-can provide valuable information about a mechanism. With this in mind, how would you synthesize each of the following deuterium-labeled compounds from the analogous unlabeled compound, using D,0 as your only source of deuterium? Hint: You will have to use two separate proton transfer reactions to synthesize each one. (a) (b) (c) OD D.
Draw the curved arrow notation and products for the each elementary step described by the sequence shown here. Note that the products of each step should be used as the reactants in the next step, and you may need to draw in additional reagents as directed. Remember to click on each box to see step-specific instructions. 1. Heterolysis ∞ 2. Coordination involving H₂O 3. Proton transfer involving H₂O 2. ?
Draw the curved arrow notation and products for each elementary step described by the sequence shown here. Note: The products of the first step should be used as reactants in the second step. OH 1. Proton transfer involving HCI 2. SN2 involving Clº
Please answer with detailed mechanism, with all steps otherwise I'll downvote
Mechanism Explorer: Sketch and Submission (Intermediate) Reactant FOD CX Qe a .. Tip: Only add curved arrows in this sketcher Submitted Mechanism Steps Apply Mechanism Hint Solution 2 remaining step(s) can be solved (Intermediate) Product Reaction Explorer Hel CH₂ c+CH₂ H₂C CH₂
HBr Br L Draw the curved arrow step in this column... this mechanism requires three mechanistic steps And complete sentence in this column
2. Draw the curved arrow notation for each elementary step of the reaction sequence described below. For each step, be sure to include all relevant electron pairs, reactants, and products. Use format provided above for this problem. OH HO 1) proton transfer involving HBr 2) SN2 involving Br 3) SN2 involving CH;Li 4) electrophilic addition involving H` 5) coordination involving water 6) proton transfer involving water 7&8) tautomerization (two proton transfers) involving water 9) nucleophilic addition involving C,H;MgBr 10) proton transfer involving water
given full explanation and dont AI given solution.....