Problem Set 4
Chapter 5
Due: Monday, October 8, 2001
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Versions of this symbol date to the time of the Vikings. In the 15th century, it was apparently the symbol of a tripartite alliance of the Milanese families Visconti, Sforza and Borromeo via intermarriage. Break any (wedding?) ring and the others separate, hence the alliance is broken. The rings form a chiral object (left) that are not superimposable on their mirror image. A set of Borremean rings has been used as the logo for a certain refreshment that extols purity, body, and flavor. Is the sense of chirality of the two sets of Borremean rings the same or different? For some other examples, click here. 1) Read the stereoisomers module in the StudyAids and do the exercises. There is no need to record answers on your homework. Don't forget the Chirality of Shells (Powerpoint). |
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2) The naturally-occurring compound forskolin (1), C22H34O7, is the stereoisomer shown. a) Locate and name five different functional groups in 1. |
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e) The three rings of 1 are all in chair conformations that are incapable of flipping to their respective, alternate chair conformations. Why? [Review 3-16B in your text. Making a model of trans-decalin as suggested will be of great help.] |
3) An optically-active compound A (C10H16, [a]D = +124o) reacts with H2 in the presence of a catalyst to provide compounds B and C. [Note: Hydrogen adds to double bonds under these conditions. Thus, ethylene is converted into ethane.] Both B and C show no optical rotation, even when the solutions are diluted, both compounds have the formula C10H20, and both compounds are 1,4-disubstituted cyclohexanes. Compound B has an energy difference of 3.8 kcal/mol between its two chair conformations. a) With the aid of Table 3-5, determine the structures of B and C. Show your reasoning. |
4) Which of the following structures are capable of resolution at room temperature? Explain and illustrate. |
5) The 1,2,3-tribromocyclohexane 1 is optically active yet there is no stereochemistry assigned to the C2-substituent. Explain and illustrate. |
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6) In 1886, Albert Ladenburg, synthesized the Socratic poison, coniine [2-propylpiperidine (1)], in racemic form. He resolved the racemate into its enantiomers using the reverse of the technique employed by Pasteur ~25 years earlier. a) What did Ladenburg do? |
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Albert Ladenburg (1842-1911) |