Alkene Reactions: III
Using the drawing pallet on the right, draw the structure of the major
organic product for the reaction shown below:
The reaction of an alkene with ozone, followed by dissolving metal
reduction with zinc dust, involves the intermediate formation of an
ozonide, which is reduced in the second step to split the alkene
and form aldehydes and ketones.
Using the drawing pallet on the right, draw the structure of the major
organic product for the reaction shown below:
Diiodomethane in the presence of zinc-copper amalgam in ether,
generates carbene (CH2) which inserts into the alkene
p system to form a cyclopropane ring.
Using the drawing pallet on the right, draw the structure of the major
organic product for the reaction shown below:
The reaction of an alkene with KMnO4 in the presence of
aqueous acid, results in the cleavage of the alkene and oxidation of
each of the alkene carbons. Disubstituted alkene carbons will yield
ketones, monosubstituted alkene carbons yield carboxylic acids and
terminal alkenes generate CO2. If the oxidation is allowed
to proceed for too long, any ketones which are produced can be further
oxidized to carboxylic acids.
Using the drawing pallet on the right, draw the structure of the major
organic product for the reaction shown below:
Chloroform in the presence of strong base, generates
dichlorocarbene (CCl2) which inserts into the alkene
p system to form a dichlorocyclopropane
ring.
Using the drawing pallet on the right, draw the structure of the major
organic product for the reaction shown below:
The reaction of an alkene with ozone, followed by dissolving metal
reduction with zinc dust, involves the intermediate formation of an
ozonide, which is reduced in the second step to split the alkene
and form aldehydes and ketones.
Using the drawing pallet on the right, draw the structure of the major
organic product for the reaction shown below:
Diiodomethane in the presence of zinc-copper amalgam in ether,
generates carbene (CH2) which inserts into the alkene
p system to form a cyclopropane ring.
Using the drawing pallet on the right, draw the structure of the major
organic product for the reaction shown below:
Chloroform in the presence of strong base, generates
dichlorocarbene (CCl2) which inserts into the alkene
p system to form a dichlorocyclopropane
ring.
Using the drawing pallet on the right, draw the structure of the major
organic product for the reaction shown below:
The reaction of an alkene with ozone, followed by dissolving metal
reduction with zinc dust, involves the intermediate formation of an
ozonide, which is reduced in the second step to split the alkene
and form aldehydes and ketones.
Using the drawing pallet on the right, draw the structure of the major
organic product for the reaction shown below:
Diiodomethane in the presence of zinc-copper amalgam in ether,
generates carbene (CH2) which inserts into the alkene
p system to form a cyclopropane ring.
Using the drawing pallet on the right, draw the structure of the major
organic product for the reaction shown below:
The reaction of an alkene with KMnO4 in the presence of
aqueous acid, results in the cleavage of the alkene and oxidation of
each of the alkene carbons. Disubstituted alkene carbons will yield
ketones, monosubstituted alkene carbons yield carboxylic acids and
terminal alkenes generate CO2. If the oxidation is allowed
to proceed for too long, any ketones which are produced can be further
oxidized to carboxylic acids.
That is correct!
Sorry, that is not correct. You should modify your structures
and try again. If cis-trans- stereochemistry is required,
please make sure you have drawn the appropriate isomer using the "wedge
bonds".
Note: Stereochemistry is shown using the
"wedge" bond.
Click on the solid wedge to reverse orientation.
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