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tab Q W caps lock page 15 6 13. Using acetylene as one of the starting...
13. Using acetylene as one of the starting materials and any other reagents required, outline a synthetic route (including all reagents, proper order of addition and the product for each step) to obtain the following compound (with the stereochemistry shown):
Please answer this question in detail 13. Using acetylene as one of the starting materials and any other reagents required, outline a synthetic route (including all reagents, proper order of addition and the product for each step) to obtain the following compound (with the stereochemistry shown):
Please answer this question in detail 13. Using acetylene as one of the starting materials and any other reagents required, outline a synthetic route (including all reagents, proper order of addition and the product for each step) to obtain the following compound (with the stereochemistry shown):
11. Draw the complete mechanism for the following reaction. Assume that this reaction takes place via El mechanism. (Hint: a series of carbocation rearrangements will occur) HH Weak Base EtOH н HO HO 13. Using acetylene as one of the starting materials and any other reagents required, outline a synthetic route (including all reagents, proper order of addition and the product for each step) to obtain the following compound (with the stereochemistry shown):
es 20 1 2 $ 3 % 5 tab Q W page 10 5 8. Using acetylene as one of the starting materials, show the synthesis of the following compound
fab Q W E caps lock A S shite page 17 96 9 15. Provide a curved arrow mechanism for each of the following transformations OH (a) CH,ONa CHOH HBr Br (b)
Consider the reaction below. Note that the stereochemistry of the product is now shown: 12 points. 5. Br2 CH2Cl2 Br Br a. Draw the most stable chair conformation of the starting material (i.e. the alkene). Use the chair template provided on your answer sheet. You do not need to draw ring hydrogens. (2 points) b. Draw a detailed stepwise mechanism for the reaction. Draw all intermediates and use curved arrows to show 'electron movement'. If multiple stereoisomers of the same...
Question 6. (14 marks) Using reactions taught in class, outline a synthesis to produce 3,8-dimethyldecan- 4,7-diol shown below. You may only use 2-bromobutane as a carbon source for your synthesis, but you may use any inorganic reagents you wish for the synthesis, which will require several steps. For full marks, provide the reagents to each step, and provide each compound synthesized in the production of the final target molecule. You may ignore stereochemistry for this question. If you need extra...
Page 1 Synthesis using Carbonyl O-Substitution Chemistry Preamble This experiment involves the synthesis of target molecules using a-substitution chemistry. You are assigned two target molecules, one of which is best synthesized by an alkylation approach, while the other is best synthesized by an addition or condensation approach. You must do the following: 1. Perform a retrosynthetic analysis on the two target molecules assigned to you. In each case the organic starting material (what you have to work backwards toward) depends...
Show lone pairs on all appropriate atoms and the proper flow of electrons. (1) Mechanism #1: • Predict the products of the following reaction under different temperature conditions. • Show the mechanism for how the two products are formed at different temperatures (include resonance structures if appropriate). • Label the kinetic product and the thermodynamic product. (5 points) -80 °C + HBr 40 °C (2) Predict the product and show the complete mechanism for the following reaction. • Make sure...