Draw the structures of the organic products in each reaction of the following two-step synthesis.
Draw the structures of the organic products in each reaction of the following two-step synthesis.
Draw the structures of the organic products in each reaction of the following two-step synthesis. (Hint: The nucleophilic amine attacks the electrophilic carbonyl carbon, and the resulting intermediate undergoes a proton shift and dehydration. Recall what is eliminated in a dehydration process. The second step is a reduction reaction; the reducing agent is NaBH3CN (or H2, metal catalyst). The aromatic ring is unaffected by these reagents. Look at the product of the first reaction and consider what can be easily...
Draw the structures of the organic products in each reaction of the following two-step synthesis. (Hint: The nucleophilic amine attacks the electrophilic carbonyl carbon, and the resulting intermediate undergoes a proton shift and dehydration. Recall what is eliminated in a dehydration process. The second step is a reduction reaction; the reducing agent is NaBH3CN (or H2, metal catalyst). The aromatic ring is unaffected by these reagents. Look at the product of the first reaction and consider what can be easily...
Draw the structure of the organic product of each reaction in the following two-step synthesis. Draw the structure of the organic product of each reaction in the following two-step synthesis.
Draw the intermediate and final organic structures in the following two-step reaction, showing the correct stereochemistry.
??? Draw the intermediate and final organic structures in the following two-step reaction, showing the correct stereochemistry.
Draw the structures of the intermediate compound and final organic product in the following two-step reaction. The molecular formula of the final product is given.
Draw the intermediate and final organic structures in the following two-step reaction, showing the correct stereochemistry.
Draw the structures of all possible neutral organic products formed in the following reaction. Do not draw counterions or byproducts. CH3 CH3 CH3 CH3 + OH Almost. These products can be formed in this reaction, but there are two additional products that can also form. Add the structures of those two products.
b. Draw the structures of the organic products of the acyl transfer reaction. a. Draw the structure of the tetrahedral intermediate INITIALLY-FORMED in the reaction shown. b. Draw the structures of the organic products of the acyl transfer reaction.
2. Draw the structures of the two major organic products of the following reaction. excess H,O H2SO4 catalyst Hanion om Hisos calaiyot H2C CH3 heat