For each addition route of the reaction, draw the structures of the possible products, including stereochemistry.
For each addition route of the reaction, draw the structures of
the possible products, including stereochemistry. Note that more
than one product is produced in each case since stereochemistry
must be considered.
For each addition route of the
reaction, draw the structure(s) of the major product(s), including
stereochemistry.
For each addition route of the reaction, draw the structure(s) of the major product(s), including stereochemistry
For each addition route of the reaction, draw the structure(s) of
the major product(s), including stereochemistry. (TWO PRODUCTS FOR
BOTH)
For each addition route of the reaction, draw the
structure(s) of the major product(s), including
stereochemistry.
I don't know what I'm doing wrong??? I didnt think they were the
same enantiomer but it keeps telling me it's wrong. And it requires
2 structures in the 1,2 addition.
For each addition route of the reaction, draw the structure(s) of the major product(s), including stereochemistry. 1,2-addition: y 1,4-addition:
For each addition route of the reaction, draw the structure(s) of the major product(s), including stereochemistry. One structure is a major product; the other is minor due to steric strain.
Draw the main organic products of the reaction. Indicate the
stereochemistry, including H's, at each stereocenter. Omit
byproducts such as salts or methanol.
UPDATED WITH CORRECT ANSWER:
Draw the main organic products of the reaction. Indicate the stereochemistry, including H's, at each stereocenter. Omit byproducts such as salts or methanol.
Question:
Draw the main organic products of the reaction. Indicate the stereochemistry, including H's, at each stereocenter. Omit byproducts such as salts or methanol. Draw the major organic product of the reaction. Show the stereochemistry, if applicable. Omit byproducts such as water or bromide ion.
There are three possible products for the Diels-Alder reaction, each involve the addition of one molecule of maleic anhydride to one molecule of anthracene. Draw each possible product, clearly showing the stereochemistry of the reaction.
Draw the structures of the expected organic product(s) formed in the following reactions including correct stereochemistry. If more than one product is possible draw all products and write major or minor product where necessary. Indicate what the mechanism of the reaction is. Assume all reagents listed are present in excess unless otherwise noted. If no reaction occurs, state 'No Reaction'. DMF = dimethyl if ormamide, CH_3 CN = acetonitrile