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These are not optical isomers they are functional group isomers a subcategory of structural isomers.
CH3CH2CHO (propanal) and CH3COCH3 (propanone) are functional isomers as they differ in the functional group.
There are 5 different carbon backbone structures including benzine that are possible isomers of C6H12O. Of these 5, the benzine ring can only form -OH compounds with the formula C6H12O so there is only one benzine isomer. The linear carbon chain can form 3 different isomers with a double bonded oxygen; an aldehyde and 2 ketones (on the first, second, or third carbon). It can also form 15 different alkene isomers with an -OH functional group (hyrdoxyl) in different positions on the chain and a double bond on the first, second or third carbon in the chain. This gives 18 total possible isomers of C6H12O with the linear 6 carbon chain. There are two variation with a five carbon chain and a methyl group on the second and the third carbon in the chain. There is a 4 carbon chain variation with an ethyl on the second carbon in the chain. Both the five and four carbon chain variations can make different isomers with a double bonded oxygen in various locations and alkene variations with a double bond in the carbon chain and an -OH functional group (hyrdoxyl) in different positions on the chains. Over all there are over 60 different isomers of C6H12O that are possible.
PROPANE CHAIN WITH ALDEHYDE AT THE END AND ISOPROPYL CHAIN WITH ALDEHYDE ATE THE END. Propyl chain (3 carbons) with aldehyde functional group at the end and isopropyl chain with aldehyde functional group at the end. and isomers of butenol.(( CH2=CH-CH2-CH2-OH))and isomers of double bond with ether gp. and 4 carbon chain with keto gp
The amino functional group.
These are not optical isomers they are functional group isomers a subcategory of structural isomers.
CH3CH2CHO (propanal) and CH3COCH3 (propanone) are functional isomers as they differ in the functional group.
Metamerism arises due to different alkyl chains on either side of the functional group in the molecule For example , C4H10O represents methoxypropane (CH3OC3H7) and ethoxyethane (C2H5OC2H5).
There are 5 different carbon backbone structures including benzine that are possible isomers of C6H12O. Of these 5, the benzine ring can only form -OH compounds with the formula C6H12O so there is only one benzine isomer. The linear carbon chain can form 3 different isomers with a double bonded oxygen; an aldehyde and 2 ketones (on the first, second, or third carbon). It can also form 15 different alkene isomers with an -OH functional group (hyrdoxyl) in different positions on the chain and a double bond on the first, second or third carbon in the chain. This gives 18 total possible isomers of C6H12O with the linear 6 carbon chain. There are two variation with a five carbon chain and a methyl group on the second and the third carbon in the chain. There is a 4 carbon chain variation with an ethyl on the second carbon in the chain. Both the five and four carbon chain variations can make different isomers with a double bonded oxygen in various locations and alkene variations with a double bond in the carbon chain and an -OH functional group (hyrdoxyl) in different positions on the chains. Over all there are over 60 different isomers of C6H12O that are possible.
PROPANE CHAIN WITH ALDEHYDE AT THE END AND ISOPROPYL CHAIN WITH ALDEHYDE ATE THE END. Propyl chain (3 carbons) with aldehyde functional group at the end and isopropyl chain with aldehyde functional group at the end. and isomers of butenol.(( CH2=CH-CH2-CH2-OH))and isomers of double bond with ether gp. and 4 carbon chain with keto gp
The functional group is the NH2. It is an amino functional group.
The amino functional group.
It is the amino functional group amine
This can be either: ethanol : C2H5OH which is an alcohol or dimethyl ether (methoxymethane) CH3OCH3 which is an ether. These are examples of functional group isomers. Regards, Denison - gofortraining@gmail.com
Functional groups are responsible for chemical reactions of molecules.
It is the amino functional group amine
Hydroxyl group, -OH