For the following dehydration, use curved arrows to show the formation of the carbocation intermediate in the presence of sulfuric acid (H2SO4), then draw the structures of the minor and major products of the elimination.
For the following dehydration, use curved arrows to show the formation of the carbocation intermediate in...
For the dehydration shown, use curved arrows to show the formation of the carbocation intermediate in the presence of sulfuric acid H, SO2, then draw the structures of the minor and major products of the elimination. H2SO4 - Major and Minor products O Step 1: Use curved arrows to complete the protonation mechanism of the alcohol. Step 2: Use a curved arrow to show the formation of the carbocation intermediate for the elimination. Select Draw Rings More Erase Select Draw...
For the dehydration shown, use curved arrows to show the formation of the carbocation intermediate in the presence of sulfuric acid H2SO4, then draw the structures of the minor and major products of the elimination.
For the dehydration shown, use curved arrows to show the formation of the carbocation intermediate in the presence of sulfuric acid H, SO4, then draw the structure of the major product of the elimination. ОН H2SO4 - product Step 1: Use curved arrows to complete the protonation mechanism of the alcohol. Step 2: Use a curved arrow to show the formation the carbocation intermediate. Note: HSOZ is formed from step 1, but not shown. Select Draw Rings More Erase Select...
For the dehydration shown, use curved arrows to show the formation of the carbocation intermediate in the presence of sulfuric acid H, SO4, then draw the structure of the major product of the elimination. OH to selectivacain intermediate in the prese H2SO4 - product Step 1: Use curved arrows to complete the protonation mechanism of the alcohol. Step 2: Use a curved arrow to show the formation of the carbocation intermediate. Note: HSO, is formed from step 1, but not...
estion 14 of 14 Attemp For the dehydration shown, use curved arrows to show the formation of the carbocation intermediate in the presence of sulfuric acid H,SOą, then draw the structure of the major product of the elimination. ОН H, SO product Step 1: Use curved arrows to complete the protonation mechanism of the alcohol. Step 2: Use a curved arrow to show the formation the carbocation intermediate. Note: HSO, is formed from step 1, but not shown. Select Draw...
D esures Hint Chech Question 14 of 14 > Step 1: Use curved arrows to complete the protonation mechanism of the alcohol. Step 2: Use a curved arrow to show the formation of the carbocation intermediate. Note: HSO is formed from step 1, but not shown. Select Draw Rings More Erase Select Draw Rings More Erase CHO 2 Q Step 3: Use a curved arrow to show the carbocation rearrangement. Step 4: Draw curved arrows to show the elimination to...
b. Use numbers to represent curved arrows to show how the carbocation intermediate reacts with Nu:- to form the electrophilic aromatic substitution product. Your first number is atom or bond where the curved arrow starts; your second number is atom or bond where the curved arrow ends. Do not put a comma between your numbers. H I-1 8H7 10 woo + Nu: → CoHJE -1°
b. Use numbers to represent curved arrows to show how the carbocation intermediate reacts with Nur-to form the electrophilic aromatic substitution product. Your first number is atom or bond where the curved arrow starts; your second number is atom or bond where the curved arrow ends. Do not put a comma between your numbers. н H. I 8H7 10 19 + Nu: C6H5E Your answer. Do not put a comma between your numbers. Your answer
уон 6. The following reaction yields multiple products (16 points) H2O H2SO4 Use curved arrows to show the mechanism for the formation A. Use curved arrows to show the mechanism for the formation B. Use curved arrows to show the mechanism for the formation of C.
T ylic uelydration reaction, draw the curved arrow mechanism leading to the major alkene product and one of the minor alkene products. Draw a picture of the hyperconjugation interaction that explains the greater thermodynamic stability of the major product versus the minor product. Concisely explain why the uncatalyzed dehydration reaction would not form the carbocation intermediate Me catalytic H2SO4 -он H,0