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- What are the differences and similarities between an aliphatic and an . . .
Aliphatic compounds are hydrocarbons (, compounds containing only C C and H H) which are not aromatic An example would be hexane () Alicyclic compounds are aliphatic compounds that contain one or more rings An example would be cyclohexene () Benzene, aromatic (courtesy ): Furan, aromatic (courtesy Wikipedia): Cyclohexane, alicyclic (courtesy ):
- organic chemistry - Where does the name ‘aliphatic’ come from . . .
Generally, carbons and the hydrogens bonded to them are classified as one of the following: aromatic olefinic aliphatic (something for triple bonds I don’t know) The meaning of aromatic is rather c
- organic chemistry - How to transform an aliphatic primary amine to the . . .
Could you suggest a reagent or procedure to transform an aliphatic primary amine to the corresponding nitro compound I know this is a bit backwards of a request because the usual procedure is the reduction of nitro groups to their corresponding amine, but there is a need of its electron-withdrawing properties for a subsequent condensation to
- Converting cyclic compounds to their corresponding aliphatic compounds
Is there any reaction available to convert cyclic compounds to their corresponding aliphatic compounds? eg Converting cyclohexane to n hexane
- Aromatic and aliphatic amines - Chemistry Stack Exchange
Is benzylamine $\\ce{C6H5CH2NH2}$ an aromatic or aliphatic amine? I've tried searching for it however different sources have conflicting information
- Perkin reaction for aliphatic aldehydes - Chemistry Stack Exchange
Why isn't Perkin reaction possible with aliphatic aldehydes? Since the carbon atom of carbonyl group of aliphatic aldehydes is more electrophilic than that of aromatic ones, the reaction must be more feasible in case of aliphatic compounds
- How to name aliphatic chain with carboxyl and amide terminal groups?
How to name aliphatic chain with carboxyl and amide terminal groups? Ask Question Asked 4 years, 10 months ago Modified 2 years, 4 months ago
- Reason for the stronger acidic property of phenol than alcohol
In phenol, pulling the pz p z electrons from the oxygen atom into the ring causes the hydrogen atom to be more partially positive than it is in aliphatic alcohols This means it is much more easily lost from phenol than it is from aliphatic alcohols, so phenol has a stronger acidic property than ethanol Could someone please explain the link between the pz p z electrons of oxygen overlapping
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