Draw a balanced reaction scheme of one of the alkyl halides reacting with NaI. Be sure to include all reagents, reaction conditions, and products.
This is a type of SN2 reaction in which bromo Methane reacts with sodium iodide in polar aprotic solvent like Acetone to form iodomethane.
Draw a balanced reaction scheme of one of the alkyl halides reacting with NaI. Be sure...
Write balanced equations and draw the structure for any reactions undergone by each alkyl halide with NaI/Acetone: 2-bromobutane, 2-bromo-2-methylpropane, 1-bromobutane, bromocyclohexane, 1-bromoadamantane and write out mechanism for the reaction 2-bromobutane in NaO/Acetone
S. a) Draw all the possible elimination products from these alkyl halides. b) Circle the major reaction product in each of parts (i) and (ii) above.
1. Compare the reactivity of primary alkyl halides in part 1 (SN2) of this experiment to the reactivity of primary alkyl halides today. What conclusions, if any, can you make about the reactivity of these molecules under these different conditions? Use specific data to make your point. 2. Compare the reactivity of secondary alkyl halides in part 1 (SN2) of this experiment to the reactivity of secondary alkyl halides today. What conclusions, if any, can you make about the reactivity...
Devise a synthesis of these compounds starting with 3-carbon alkyl halides. Show any necessary reagents and reaction conditions. All carbons must ultimately come from the 3-carbon alkyl halides. Once you have made a new compound, you may reuse it without making it again. a) Propanone b) Butanoic acid c) 3-hexene
2. Draw structures for the following alkyl halides. Be sure to indicate any stereochemistry as needed. (2 pts. each) a. 3,6-dibromo-3,6-dichlorononane b. 2-iodo-2-methylpentane
D obro ontzil 3) c. You subjected the secondary alkyl halides to both Sn2 and Sn1 reaction conditions. By which mechanism did each alkyl halide react faster, SN2 or S17 On the basis of your comparison, what can you conclude about the adu! likelihood of a secondary alkyl halide reacting by one or the other mechanism? Why? ni balb o za
Please HELP!! Table 1: Alkyl Halides in NaI Substrate Time for Precipitate to Form Heated? Temp (℃) Time (min) Heat Relative Ranking (#1-#6) Predicted Relative Ranking (#1-#6) Bromobenzene No reaction Yes 44 10 6 6 2-Chlorobutane No reaction Yes 44 10 5 4 1-Chlorobutane 13 min Yes 44 8 4 3 Benzyl Chloride 2min 30 sec No --- --- 2 1 1-Chloro-2-butene 1 second No --- --- 1 5 1-Bromobutane 5 min No --- --- 3 2 1. Why did...
2. Use the template in question #1 to summarize all methods to prepare alkyl halides. Reaction Scheme Comments Substrate (s) Reagent | Functional group of the product Mechanism (type) Stereochemical Implications Alcohol Alkene
Draw the major, neutral organic product(s) for each reaction below. Incorrect. When reacting with a strong base, tertiary alkyl halides will undergo an elimination reaction instead of a substitution reaction. Incorrect. When reacting with a strong base, tertiary alkyl halides will undergo an elimination reaction instead of a substitution reaction.
Alkyl Halides: Elimination reaction with (2R,3R)-2-chloro-3-methylpentane Draw the product formed when (2R,3R)-2-chloro-3-methylpentane under-goes an elimination reaction with NaOCH3. Alkyl Halides: Elimination reaction with 3-chloro-3-ethyl-2,2-dimethylpentane. Draw the structure of the product that is formed when 3-chloro-3-ethyl-2,2-dimethylpentane undergoes an elimination reaction with NaOCH3. Indicate the stereochemistry of the product. Identify the three products formed when 2-bromo-2-methylpropane is dissolved in a mixture of 80% ethanol and 20% water.