Which mechanism is favored by the reaction of a secondary alkyl bromide with potassium t-butoxide?
a)E1
b)E2
c)SN1
d)SN2
b) E2
potassium t-butoxide is a bulky base which will undergo E2 elimination with the secondary alkyl bromide.
Which mechanism is favored by the reaction of a secondary alkyl bromide with potassium t-butoxide? a)E1...
1. Which of the following structures is/are a secondary alkyl
halide? (a) I and II (b) II and V (c) I, II and V (d) IV only (e)
I, II and III 2. Which of the following is/are aprotic solvent(s)?
Choose all correct answers. (a) (b) (c) (d) (e) (f) 3. Which of the
following carbocations, if formed, is (are) likely to undergo
rearrangement through a hydride shift? (a) I (b) II (c) III (d) I
and II (e) II...
Which reaction pathway is favored given the following substrate and conditions? CH3OH -78 °C OTS a. Sn1/E1 b. Sn2/E2 CSN2 d. E1 e. E2 f. SN1
Any help?!
Which reaction pathway is favored given the following substrate and conditions? Ci xi NaBr Acetone a. SN2 b. Sni c. E1 d. SN2/E2 e. E2 f. Sn1/E1
Circle the mechanism (SN2, SN1, E2, or E1) responsible for the formation of each product in this reaction. If the product cannot be formed in the reaction, circle "not a product". (2 pts) ГОН SN2 SN1 E2 E1 S N2 SN1 E2 E1 SN2 SN1 E2 E1 S2 Sn1 E2 E1 not a product not a product not a product not a product
2. Substitution of bromine by t-butyl amine is the second step of the reaction today. Secondary alkyl halides can undergo substitution by Sn1 or Sn2 mechanisms. Explain (in terms of electronic interactions) why an Sn2 mechanism is more favored in this case when the bromide is alpha to a carbonyl. 3. Based on your answer in 2. select the most likely reaction pathway. Explain how the substitution mechanism forms the product structure(s) shown.
Match the following statements with reaction mechanism
SN1, SN2, E1, or E2. A statement may be true
for one or more mechanisms.
a. The mechanism involves carbocation intermediates. b. The mechanism has two steps. c. The reaction rate increases with better leaving groups. d. The reaction rate increases when the solvent is changed from CH3OH to (CH3)2SO e. The reaction rate depends on the concentration of only the alkyl halide. f. The mechanism is concerted. g. The reaction of CH3CH2Br...
ehydrogen 5. Compound A (C>H1sBr) is not a primary alkyl bromide. It yields a single alkene (compound B) on being heated with sodium ethoxide in ethanol. Hydrogenation of compound B yields 2, 4-dimethylpentane. A) Identify compound A, provide structure formula of A. (3 points) CH3 8 енg A=HC-CH-CH-CH-CH3 B) Write the chemical equation of A with sodium ethoxide to produce B. (2 points) ntr) (2 poimts C) What is the symbol of reaction mechanism? (SN1, SN2, E1 OR E2) 6...
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
Question 17 For the following reaction, which of the following is the mechanism? HBr OH A. SN1 B. SN2 C. E1 D. E2 Question 18 What is the product of the following reaction. som trosos molt sisada gniotetor H2O GA I. AG A) I B) II C) III al D) I+II istuiwell todo E) I+III HO Question 19 What reaction mechanism is most likely for substitution on the following compound? 2 Dub T o wable oil A. SN1 B. SN2...
Question 28 1 pts Imagine that a scientist mixes bromoethane and sodium tert-butoxide in 2-methyl-2-propanol. What type of reaction is likely to predominate? Remember to consider the type of alkyl halide that is involved, and remember also to consider whether the anion will act predominantly as a base or as a nucleophile or as both a base and a nucleophile. If the latter, consider the figure below to guide your decision. Finally, remember to consider the Apka rule, as it...