This is too much and too complicated to calculate:
There are many possibilities for 1 or more double, triple, linear, branched or cyclic CC-bonds with one C=O or C-OH group on many different C-atoms.
One reasonable possibility is: 2,4,6-hepta-tri-enal, H2C=CH-CH=CH-CH=CH-CH(=O)
The answer would give no interesting views on organic structural chemistry.
But maybe C3H8O is meant (C3.. in stead of C7..), this will give you only two possible isomers: 1-propanol and 2-propanol.
there are 3 isomers, 1 is ether and the other 2 are alcohols
Five isomers
CCl3-CH2-CH3
CCl2-CHCl-CH3
CCl2-CH2-CH2Cl
CH2Cl-CCl2-CH3
CH2Cl-CHCl-CH2Cl
it has 7 I love chemistry
3 two alcohols and one ether
Only two Propene and Cyclopropane.
3 isomers
7
Structural isomers also called constitutional isomers are different compounds that have same molecular formula but different molecular structure. Structural isomers have same number of each type of atoms but the atoms are connected in a different order in them. Structural isomerism is seen in organic compounds. It can be due to different arrangement of carbon chain, due to different position of functional group on the carbon chain, due to different functional groups that give their family of compounds same molecular formula. Difference in arrangement of atoms is visible if structural formulas are written for compounds having same molecular formula. Like structural isomers, stereoisomers also have same molecular formula. Stereoisomers are not structural isomers. Stereoisomers have their atoms connected in same sequence( same constitution), but they differ in the arrangement of atoms in space. Cis and trans isomers of alkenes are examples of stereoisomers. Carbon chain arrangement, position of functional groups, and everything that could be different in structural isomerism is same here.
Isomers are compounds that exist in different molecular arrangements of atoms of the same elements and having identical atomic weights. Although isomers of a compound contain the same atoms in their molecules, the atoms are arranged in a different molecular structure and the isomers may differ in their physical, chemical, and biological properties.
3 different isomers exist.
In chemistry, isomers (from Greek ισομερης, isomerès; isos = "equal", méros = "part") are compounds with the same molecular formula but different structural formulas. Isomers do not necessarily share similar properties, unless they also have the same functional groups. There are many different classes of isomers, like stereoisomers, enantiomers, geometrical isomers, etc. (see chart below). There are two[citation needed] main forms of isomerism: structural isomerism and stereoisomerism (spatial isomerism).
Lithium oxide does not exist as molecules, as it is an ionic compound.
Structural isomers also called constitutional isomers are different compounds that have same molecular formula but different molecular structure. Structural isomers have same number of each type of atoms but the atoms are connected in a different order in them. Structural isomerism is seen in organic compounds. It can be due to different arrangement of carbon chain, due to different position of functional group on the carbon chain, due to different functional groups that give their family of compounds same molecular formula. Difference in arrangement of atoms is visible if structural formulas are written for compounds having same molecular formula. Like structural isomers, stereoisomers also have same molecular formula. Stereoisomers are not structural isomers. Stereoisomers have their atoms connected in same sequence( same constitution), but they differ in the arrangement of atoms in space. Cis and trans isomers of alkenes are examples of stereoisomers. Carbon chain arrangement, position of functional groups, and everything that could be different in structural isomerism is same here.
Isomers are compounds that exist in different molecular arrangements of atoms of the same elements and having identical atomic weights. Although isomers of a compound contain the same atoms in their molecules, the atoms are arranged in a different molecular structure and the isomers may differ in their physical, chemical, and biological properties.
3 different isomers exist.
Fiber food is not a compound and a chemical formula doesn't exist.
In chemistry, isomers (from Greek ισομερης, isomerès; isos = "equal", méros = "part") are compounds with the same molecular formula but different structural formulas. Isomers do not necessarily share similar properties, unless they also have the same functional groups. There are many different classes of isomers, like stereoisomers, enantiomers, geometrical isomers, etc. (see chart below). There are two[citation needed] main forms of isomerism: structural isomerism and stereoisomerism (spatial isomerism).
Lithium oxide does not exist as molecules, as it is an ionic compound.
Yes.
Butune is a nonsubstituted alkane that can exist as one of only two isomers.
Well let me see... isomers are compounds which share the same moecular formula (ieC6H14) but have different structures. So isomers of hexane (c6h14) include: Hexane 2-Methylpentane 3-Methylpentane 2,3-Dimethylbutane 2,2-Dimethylbutane Hope this helps
The similarity is that fructose and glucose are related to carbohydates. Fructose is a carbohydrate that is found in fruit, fruit juices, and some vegetables, whereas glucose is the simplest form of carbohydrate used by your body.
Cl2 is a diatomic gaseous elementthe molecular formula for the molecule Cl is ClOne Cl means it is one atom and that means it is NOT a molecule,so it has no 'molecular formula' at all.Molecules exist of at least TWO atoms, bound to each other
No. A molecular formula can be the same as the empirical formula, such as CH4 (methane), because the two component atoms exist in a ratio that cannot be mathematically further broken down - one carbon to four hydrogens. In this case the molecular formula (the actual number of atoms per molecule), and the empirical formula (the simplest ratio of those numbers) is identical. On the other hand, ethane, C2H6 - two carbons to 6 hydrogens - has a molecular formula of C2H6 and a empirical formula of CH3, the ratio of 2 to 6 reduced to its simplest whole number form. Sooooooooooo, the molecular formula will always be equal to or greater than the empirical formula, and the empirical formula will always be equal to or less than the molecular formula. In other words (as if that wasn't enough), the molecular formula will never be less than the empirical formula and the empirical formula will never be greater than the molecular formula, but THE TWO CAN BE EQUAL. Whew!!! Ray