An aromatic organic compound has a cyclic (ring) structutre; a typical example is benzene.
An aromatic compound is a compound in organic chemistry which exhibits aromaticity.
David I. Davies has written: 'Aromatic heterocyclic chemistry' -- subject(s): Heterocyclic chemistry
Aromatic means "fragrant or spicy", or, in organic chemistry, "having a closed ring of alternate single or double bonds with delocalized electrons".
H.-G Franck has written: 'Industrielle aromatenchemie' 'Industrial aromatic chemistry' -- subject(s): Aromatic compounds
Edgar Eisenstaedt has written: 'The reaction of aminoantipyrine with aromatic amines' -- subject(s): Aminoantipyrine, Aromatic amines, Condensation products (Chemistry), Oxidizing agents
The compounds most simple is Benzene because is an organic chemical compound with the molecular formula C6H6.Is a natural constituent of crude oil, and is one of the most basic petrochemicals
Benzene, cyclic C6H6
Not all the anti aromatic compounds have the unpaired electrons, for example cycloocta tetraene
n is an integer that can be 0,1,2,3,... and so on. All this means is that for an aromatic ring to be aromatic it has to have pi bonds that are 2,6,10,14,18,... and so on. On the other hand a antiaromatic ring will have the formula 4n so that pi bonds are 4,8,12,16,20,... and so on.
Aroma chemistry is name for area dealing with scents, their perception, creation and mixing. Aromatic chemistry is name for area dealing with benzene derivatives. The word "aroma" you mention may be related to something different too, depending on the context.
Chemistry plays a huge role in your daily life. Boiling water to make food for example is an example of chemistry.
Yes, aromatic compounds can belong to other classes of compounds. For example, aromatic compounds can be found in alcohols, amines, and carboxylic acids, where the aromatic ring is part of a larger functional group. Additionally, many aromatic compounds can also exhibit characteristics of aliphatic compounds when they contain non-aromatic substituents. This versatility allows aromatic compounds to play significant roles in various chemical reactions and applications.