The NH2 functional group of this organic compound, is called an Amine. this is a basic sidebranch, which when in solution will give an overall basic (alkalinic as some know it) presence. This could be identified, on this particular compound (Ethanamine/ethylamine/aminoethane) by addition of an acid, which will trigger an acid base reaction by which the NH2 group can be identified.
Functional Group! :)
A functional group is a specific arrangement of atoms within a molecule that is responsible for its characteristic chemical properties. Functional groups can influence the reactivity, physical properties, and behavior of the molecule they are attached to, determining how it will interact with other molecules in chemical reactions.
Functional group is a part of an organic molecule which takes a part in chemical reaction for example in alcohols functional group is -OH , in carboxylic acids is -COOH and so on, but formaldehyde CH2O is a molecule and it is completely a functional group.
This compound belongs to the alcohol functional group as it contains a hydroxyl group (-OH) bonded to a saturated carbon atom.
A functional group is a specific grouping of atoms within a molecule that determines its chemical reactivity and properties. While the addition of a functional group can change the structure of a compound, it does not necessarily alter its overall chemical properties, as the functional group will largely dictate how the compound will react chemically.
The characteristic IR spectrum stretches of the functional group present in the compound can be identified by analyzing the peaks in the infrared spectrum. Each functional group has specific peaks that correspond to the vibrations of the bonds within that group. By comparing the peaks in the spectrum to known values for different functional groups, the presence of a particular functional group can be determined.
This is the group amine.
The special feature that determines the family name and chemical reactivity of an organic compound is its functional group. Functional groups are specific arrangements of atoms within the compound that give it unique chemical properties and reactivity. The presence of a particular functional group in an organic compound helps classify it into a specific family and predict its reactions with other chemicals.
The most important way to classify an organic compound is by its functional group, which is a specific arrangement of atoms that imparts characteristic chemical properties to the molecule. Functional groups determine how a compound will react with other substances and play a key role in its chemical behavior and classification within organic chemistry.
The NH2 functional group of this organic compound, is called an Amine. this is a basic sidebranch, which when in solution will give an overall basic (alkalinic as some know it) presence. This could be identified, on this particular compound (Ethanamine/ethylamine/aminoethane) by addition of an acid, which will trigger an acid base reaction by which the NH2 group can be identified.
Functional Group! :)
A functional group is a specific arrangement of atoms within a molecule that is responsible for its characteristic chemical properties. Functional groups can influence the reactivity, physical properties, and behavior of the molecule they are attached to, determining how it will interact with other molecules in chemical reactions.
Functional group is a part of an organic molecule which takes a part in chemical reaction for example in alcohols functional group is -OH , in carboxylic acids is -COOH and so on, but formaldehyde CH2O is a molecule and it is completely a functional group.
hydrocarbon
An azoxy is a divalent functional group, an oxide of an azo compound.
It is an ether because an oxygen is bound to two carbons. Ethers can be defined as R-O-R' where R is a carbon group.