Please explain. I need both part a and b. thank you.
Please explain. I need both part a and b. thank you. 2. Alcohol Reaction Mechanism Fill...
9. Give the curved arrow mechanism for each reaction. H2SO4 b. H,o OH c. H20 H2SO d. OH H2o 10. For the following reaction, H,so, H,O он a. Give the curved arrow mechanism for the reaction, showing formation of both products b. Identify the major product and explain why it is favored. c. Draw the energy diagram for the formation of the major product. 11. Give the major organic product for the following reactions. If a racemic mixture is expected,...
Draw the major product of this reaction & a complete curved arrow mechanism and explain why the observed product is formed. H-Br
Complete the electron-pushing mechanism for the E1 reaction when 2-methylbutan-2-ol is treated with 20% sulfuric acid. Use two curved arrows to show the fast protonation of the alcohol. Use a curved arrow to show the dissociation of the leaving group from the substrate. Draw the organic product of the E1 dehydration Use two curved arrow to show the deprotonation of the carbocation intermediate.
a) complete the curved arrow electron-pushing mechanism and predict the major organic product of the reaction when 1-chloropentane is treated with hydroxide in ethanol as shown below. a) Complete the curved arrow electron-pushing mechanism and predict the major organic product of the reaction when 1-chloropentane is treated with hydroxide in ethanol as shown below. Use curved arrows to show the Draw the structure of the organic product formed in the reaction. Draw lone pairs. conversion to the product. CH3CH2OH -CI...
11b) Draw a curved arrow mechanism for the following reaction. Your mechanism should explain BOTH products HO £ * a OPP c) The product of part B does not follow Zaitsev's Rule. Explain (1 sentence) why in this particular Tatooinian biochemical system the less crowded product could be the major product.
Complete the electron-pushing mechanism for the E1 reaction when 2-methylbutan-2-ol is treated with 20% sulfuric acid. Hint: The E1 mechanism involves dissociation of the hydroxyl group from the substrate. The acid is used to convert the hydroxyl group to a good leaving group. Do not delete any pre-drawn bonds/charges/lone pairs. Complete the electron-pushing mechanism for the E1 reaction when 2-methylbutan-2-ol is treated with 20% sulfuric acid Map a) Use two curved arrows to show the fast b) Use a curved...
i answered part A and B . i need the answer to part C. please clearly identify the answer and write out everything This question has multiple parts. Work all the parts to get the most points. For the following reaction: с 1. NaOCH CH3 Hoc оснен, OCH2CH3 OCH CH 2. H30* a Draw the major organic product. - 030- T mood b Write a mechanism for the step shown below, using curved arrows to show electron redistribution. Arrow-pushing Instructions...
a) Complete the curved arrow electron-pushing mechanism and predict the major organic product of the reaction when 1-chloropentane is treated with hydroxide in ethanol as shown below. Use curved arrows to show the conversion to the product. Draw the structure of the organic product formed in the reaction. Draw lone pairs. CH3 :Ci: CH3CH2OH -Cl b) Select the option that describes the mechanism of the reaction above. O E1 O E2
Thank you so much! (2 pts) Draw the major elimination products and Identify the mechanism responsible (E1 or E2). If both E and Z isomers form, only draw the E alkene. If only one isomer forms, label the alkene "E,""Z," or neither 1. NaOCH3 а. Br НОСHЗ b. НОСНЗ C. CI NaOCH3 d. (6 pts) Draw the substitution and/or elimination product(s) for the following reactions and identify 2. the mechanism responsible (SN1, SN2, E1, or E2) for each product drawn....
Complete the curved arrow electron-pushing mechanism and predict the major organic product of the reaction when 1-chloropentane is treated with hydroxide in ethanol as shown below. Use curved arrows to show the conversion to the product. Draw the structure of the organic product formed in the reaction. Draw lone pairs. Select the option that describes the mechanism of the reaction above. S_N1 S_N2 E1 E2