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(a)
Interpretation:
How the given lithium dialkylcuprate reagent can be synthesized from an alkyl, alkenyl, alkynyl, or aryl halide is to be shown.
Concept introduction:
A lithium dialkylcuprate is synthesized from the corresponding alkyllithium reagent by treating it with copper(I) iodide, CuI. Because the metal-bonded C atom bears a partial negative charge on both the alkyllithium reagent and the lithium dialkylcuprate, umpolung technically does not occur in this reaction, but synthesizing a lithium dialkylcuprate from an
(b)
Interpretation:
How the given lithium dialkylcuprate reagent can be synthesized from an alkyl, alkenyl, alkynyl, or aryl halide is to be shown.
Concept introduction:
A lithium dialkylcuprate is synthesized from the corresponding alkyllithium reagent by treating it with copper(I) iodide, CuI. Because the metal-bonded C atom bears a partial negative charge on both the alkyllithium reagent and the lithium dialkylcuprate, umpolung technically does not occur in this reaction, but synthesizing a lithium dialkylcuprate from an alkyl halide does represent polarity reversal at the C atom. The C atom bonded to Cu should be bonded to halide. The carbon atom of C-X bond is electron poor whereas the carbon of C-Cu bond is electron rich.
(c)
Interpretation:
How the given lithium dialkylcuprate reagent can be synthesized from an alkyl, alkenyl, alkynyl, or aryl halide is to be shown.
Concept introduction:
A lithium dialkylcuprate is synthesized from the corresponding alkyllithium reagent by treating it with copper(I) iodide, CuI. Because the metal-bonded C atom bears a partial negative charge on both the alkyllithium reagent and the lithium dialkylcuprate, umpolung technically does not occur in this reaction, but synthesizing a lithium dialkylcuprate from an alkyl halide does represent polarity reversal at the C atom. The C atom bonded to Cu should be bonded to halide. The carbon atom of C-X bond is electron poor whereas the carbon of C-Cu bond is electron rich.
(d)
Interpretation:
How the given lithium dialkylcuprate reagent can be synthesized from an alkyl, alkenyl, alkynyl, or aryl halide is to be shown.
Concept introduction:
A lithium dialkylcuprate is synthesized from the corresponding alkyllithium reagent by treating it with copper(I) iodide, CuI. Because the metal-bonded C atom bears a partial negative charge on both the alkyllithium reagent and the lithium dialkylcuprate, umpolung technically does not occur in this reaction, but synthesizing a lithium dialkylcuprate from an alkyl halide does represent polarity reversal at the C atom. The C atom bonded to Cu should be bonded to halide. The carbon atom of C-X bond is electron poor whereas the carbon of C-Cu bond is electron rich.
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Chapter 19 Solutions
ORGANIC CHEMISTRY PRINCIPLES & MECHANISM
- 1) The isoamyl acetate report requires eight paragraphs - four for comparison of isoamyl alcohol and isoamyl acetate (one paragraph each devoted to MS, HNMR, CNMR and IR) and four for comparison of acetic acid and isoamyl acetate ((one paragraph each devoted to MS, HNMR, CNMR and IR. 2) For MS, the differing masses of molecular ions are a popular starting point. Including a unique fragmentation is important, too. 3) For HNMR, CNMR and IR state the peaks that are different and what makes them different (usually the presence or absence of certain groups). See if you can find two differences (in each set of IR, HNMR and CNMR spectra) due to the presence or absence of a functional group. Include peak locations. Alternatively, you can state a shift of a peak due to a change near a given functional group. Including peak locations for shifted peaks, as well as what these peaks are due to. Ideally, your focus should be on not just identifying the differences but explaining them in terms of…arrow_forward№3 Fill in the below boxes. HN 1. LAH 2. H3O+ NH2arrow_forwardFor the photochemical halogenation reaction below, draw both propagation steps and include the mechanism arrows for each step. H CH ot CH3 CI-CI MM hv of CH H-CI CH3 2nd attempt See Periodic Table See Hint Draw only radical electrons; do not add lone pair electrons. Note that arrows cannot meet in "space," and must end at either bonds or at atoms. 1 i Add the missing curved arrow notation to this propagation step. 20 H ن S F P H CI Br 品arrow_forward
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- Please, help me out with the calculation, step by step on how to find what's blank with the given information.arrow_forwardPredict the following products. Then show the mechanism. H₂N NH2arrow_forwardBF3, Boron Trifluoride, known to contain three covalent boron-fluorine bonds. suggest and illustrate all of the processes as well as their energetical consequences for the formation of BF3 from its elements.arrow_forward
- Draw the mechanism of the reaction.arrow_forward9. Draw all of the possible Monochlorination Products that would Result From the Free Radical Chlormation OF 23,4-TRIMethyl Pentane b. Calculate the To Yield For the major • Product given the Following Relative Restritus For 1° 2° and 30 Hydrogens toward Free Radical Chloration 5.0: 38 : 1 30 2° 1° C. what would be the major product in the Free Radical brominator Of the Same Molecule. Explain your Reasoning.arrow_forwardWhat is the complete reaction mechanism for the chlorination of Ethane, C2H6?arrow_forward
Organic Chemistry: A Guided InquiryChemistryISBN:9780618974122Author:Andrei StraumanisPublisher:Cengage Learning