Propanal.
Propan (The stem name suggests there are 3 Carbons in the main chain) + Al (aldehyde).
H H O
I I / /
H-C-C-C
I I \
H H H
CH3CH2CHO
This is the formula for propanal, also known as propionaldehyde.
The compound CH3-CH2-CH2-CH2-CH2-CH2-CHO is an aldehyde with a straight-chain structure. It consists of a seven-carbon chain (heptanal) with an aldehyde functional group (-CHO) at one end. Therefore, the correct IUPAC name for this compound is heptanal.
A butyraldehyde is the aliphatic aldehyde CH3-CH2-CH2-CHO derived from butane.
Hexanal is an aldehyde with a six-carbon chain, specifically represented by the chemical formula C6H12O. Its general structure features a straight-chain hydrocarbon with a terminal aldehyde group (-CHO) at one end. This gives it a linear arrangement of five carbon atoms (C1 to C5) bonded to hydrogen atoms, while the sixth carbon (C6) is part of the aldehyde functional group. The structure can be depicted as CH3-CH2-CH2-CH2-CHO.
That's Propane. You can also express it as C3H8 .
This is the formula for propanal, also known as propionaldehyde.
The compound CH3-CH2-CH2-CH2-CH2-CH2-CHO is an aldehyde with a straight-chain structure. It consists of a seven-carbon chain (heptanal) with an aldehyde functional group (-CHO) at one end. Therefore, the correct IUPAC name for this compound is heptanal.
O | | CH3-CH2-C-Ch2-CHO
A butyraldehyde is the aliphatic aldehyde CH3-CH2-CH2-CHO derived from butane.
after oxidation is CH3-CH2-CHO + H20
Ch2(cho)2 is the molecular formula for malondialdehyde.
Butane-C4H10 C4H10 - H C4H9 - ? C4H9 + CHO C4H9CHO
Hexanal is an aldehyde with a six-carbon chain, specifically represented by the chemical formula C6H12O. Its general structure features a straight-chain hydrocarbon with a terminal aldehyde group (-CHO) at one end. This gives it a linear arrangement of five carbon atoms (C1 to C5) bonded to hydrogen atoms, while the sixth carbon (C6) is part of the aldehyde functional group. The structure can be depicted as CH3-CH2-CH2-CH2-CHO.
That's Propane. You can also express it as C3H8 .
A butyration is a reaction with butyric acid or a butyrate.
It's not really possible to make that, but if it's a group on the end of a chain (eg CH3 CH2 CHO) then it's classed as an Aldehyde group. If by CHO you mean a chain containing only Carbon, Hydrogen and Oxygen, then it's known as a Carbohydrate normally.
The structural formula of CH3-CH=CH-CO-H is 2-butenal. It is composed of a butene group with an aldehyde functional group (CHO) at the end. The carbon-carbon double bond is what distinguishes it from other aldehydes.