1 = least stable 4= most stable 3. Rank the following alkenes in order to increasing...
3. Rank the following alkenes in order to increasing stability 4. Draw the mechanism for the following E2 reactions. Br Br pt + CH, ONa CH, ONA —-
3. Rank the following alkenes in order to increasing stability. 4. Draw the mechanism for the following E2 reactions a) - Br Br ΕΙ WE + CH, ONa -ONa
3. Rank the following alkenes in order to increasing stability. 4. Draw the mechanism for the following E2 reactions a) - Br Br ΕΙ WE + CH, ONa -ONa
Question 6 3 pts Rank the following alkenes in order of increasing stability. Least stable: [Select Intermediate: Select) Most stable: [Select]
Rank the following alkenes in order to increasing stability. Lolype of alcohol 3° 2° >> 10 conditions requires relatively harsh conditions Et de v It-Bude * bulky basé 3. Rank the following alkenes in order to increasing stability. 4. Draw the mechanism for the following E2 reactions, HA - Br I ( + CH3ONa "ph Ph E
Question 1 Arrange the following bicyclic alkenes in order of increasing stability (least stable to most stable) Question 2 What is the degree of unsaturation of this formula C16H13N2OCI? A. 11 B. 4 C.6 D. 12
Rank the following carbocations in order of increasing stability. “1” is the least stable, “4” is the most stable or ot an CH3 or
Ph OMe Cl Rank these alkenes in order of the stability. (1 - most stable, 4 least stable)
1. Rank the following carbocations in order of increasing stability. “1” is the least stable, “4” is the most stable. (2 pts) CH3 2. Predict the major organic products formed in the following reactions. Be certain to indicate stereochemistry in your products if it is important. (12 pts) H2 Pd/C НСІ.
1. Rank the following carbocations in order of increasing stability. "I" is the least stable, "4" is the most stable. (2 pts) or and an ove сна