3. Draw a structural formula for the major organic product(s) of each reaction and specify the...
please explain why and how they are E2/SN2/SN1/E1 3. Draw a structural formula for the major organic product(s) of each reaction and specify the mechanism by which each product is formed (SNI, S2, El, or E2). • NaOH H20 CH,CH ON CH,CH OH CH ON CH,OH CH OH Na DMSO
How can you tell what is a weak/strong nucleophile and a weak/strong base to determine what mechanism you use (SN1, SN2, E1, E2)? 3. Draw a structural formula for the major organic product(s) of each reaction and specify the mechanism by which each product is formed (SNI, SN2, El, or E2). NaOH HO CH2CH ON CH3CH OH CHON CH,OH CH,OH DMSO
How can you tell if a reactant, like the NaOH, is a strong/weak nucleophile or base to determine what mechanism you use? The picture provided has the correct answers. I just don't understand how to get to them. 3. Draw a structural formula for the major organic product(s) of each reaction and specify the mechanism by which each product is formed (SN1, S2, E, or E2). E2 NaOH Н,0 CH3CH2ONa CH3CH2OH E2 CH2ONa иис CH3OH OCH3 Br CH3OH ИИ E1...
Draw a structural formula for the substitution product of the reaction shown below. OCH3 Na* ON CH3CH2OH H3C H H Br • Use the wedge/hash bond tools to indicate stereochemistry where it exists. • If more than one stereoisomer of product is formed, draw both. • Separate multiple products using the + sign from the drop-down menu. • Products that are initially formed as ions should be drawn in their neutral forms. Draw the major organic product(s) of the following...
3. For each reaction, draw the structure of the major product(s) including stereochemistry where appropriate. Fill n the box below each arrow with the mechanism(s) that will be followed (SN1/E1, SN2, or E2). For SN1/E1 reactions, draw products for both. NaCN DMF tBuOH 言言言 MeOH * | CH30 CH OH DMSO R-2-bromopentane
Draw a structural formula for the major product of the reaction shown. CH3CH2 S=CHCH2 The CH3CH2 Draw a structural formula for the major product of the reaction shown. CH3 CH3CHCH=CH2 Draw a structural formula for the major product of the reaction shown. Cl2 CH3CH2CH2CH=CH2 - H2O Draw structural formulas for all alkenes that could be used to prepare the alcohol shown below by oxymercuration. H3COH , 1. Hg(OAc)2, H2O 2. NaBH4 Draw the structure of the major organic product of...
3. (continued) For each reaction, draw the structure of the major product(s) including stereochemistry where appropriate. Fill in the box below each arrow with the mechanism(s) that will be followed (SN1/E1, SN2, or E2). For SN1/E1 reactions, draw products for both. g) Сн,сн,он h) CH2O- Na CH3OH i) Me. Br A Eto Nat Me
For each of the following reactions: (1) Draw all of the organic product(s) that would be formed, and (2) label each product as formed via S1, S2. E1, or E2. For elimination products, label as major or minor. Pay close attention to regiochemistry, stereochemistry, and whether carbocation rearrangements would occur. - DBN ci Br H20 B A C CH3OH acetone NaOH D Br DMSO
17. Draw the structure of the major organic product(s) for each of the following reactions. Indicate stereochemistry when appropriate. C(CH3)3 NASH Br (S)-2-bromononane - acetonitrile KOH CH,OH NaCN HE Br Acetonitrile C2H5 H, Br NaOH Acetone excess HBr ROOR HC1 + Br Na o DMSO
Draw a structural formula for the major organic product(s) of the reaction shown below. Draw a structural formula for the major organic product(s) of the reaction shown below.