DRAW THE STRUCTURE OF THE PRODUCT OF THIS REACTION
. this is favored 3-methyl cyclo hex-3-ene.
Reactant is presentin chair conformer. since methyl and bromo groups are present trans to each other and methyl group at equatorial position is more stable axial, the bromo group is forced to equatorial position. Now bromine is a good leaving group.
and trans elimination is favorable over syn elimination.
Hence The major product is the one given above
DRAW THE STRUCTURE OF THE PRODUCT OF THIS REACTION You may attempt this question 2 more...
Draw the structure of the product of this reaction. Use the wedge and dash tools to indicate stereochemistry of substituents on ring. Do not draw hydrogen atoms. If no reaction occurs, signify this by drawing ethane in the sketch pad.
Draw one product structure for the following Diels–Alder reaction. For ONLY the chirality centers with D and C(=O)H groups, specify the stereochemistry via wedge-and-dash bonds. (D is deuterium, an isotope of hydrogen. Include it in your drawing by either double clicking on an atom and typing \"d\" or by choosing D in the bottom row of the atoms menu.)
Draw one product structure for the following Diels-Alder reaction. For ONLY the chirality centers with D and C(=0)H groups, specify the stereochemistry via wedge-and-dash bonds. (D is deuterium, an isotope of hydrogen. Include it in your drawing by either double clicking on an atom and typing "d" or by choosing D in the bottom row of the atoms menu.)
Draw the structure of the product of this reaction. KOH rightarrow E2 elimination product Use the wedge/hash bond tools to indicate stereochemistry. If there are alternative structures, draw the most stable one. If no reaction occurs, draw the organic starling material.
Draw one enantiomer of the major product of the folllowing Diels-Alder reaction. (Use wedge/dash bonds to indicate the orientation of substituents in the product. Hydrogen atoms on chirality centers must be shown explicitly.)
Draw the structure of the product of this reaction. Use the wedge/hash bond tools to indicate stereochemistry. If there are alternative structures, draw the most stable one. If no reaction occurs, draw the organic starting material.
Draw the structure of the product of this reaction. Use the wedge hash bond tools to indicate stereochemistry. If there are alternative structures, draw the most stable one. If no reaction occurs, draw the organic starting material. Predict the major substitution products of the following reaction. Use the wedge hash bond tools to indicate stereochemistry. If there is more than one major product possible, draw all of them. Draw one structure per sketcher. Add additional sketchers using the dropdown menu...
Draw one enantiomer of the major product of the folllowing Diels- Alder reaction. (Use wedge/dash bonds to indicate the orientation of substituents in the product. Hydrogen atoms on chirality centers must be shown explicitly.)
Draw one enantiomer of the major product of the following Diels-Alder reaction. (Use wedge/dash bonds to indicate the orientation of substituents in the product. Hydrogen atoms on chirality centers must be shown explicitly.)
Draw one enantiomer of the major product of the following Diels-Alder reaction (Use wedge/dash bonds to indicate the orientation of substituents in the product. Hydrogen atoms on chirality centers must be shown explicitly.)