You might be able to do so in a few cases. If you take CH4 or O3, and know the bonds that those elements form, you'll see those can only be arranged one way.
But if you take C4H10, this can be arranged in different ways. The four carbon atoms could be in a chain of four, which is known as Butane. Or you could have one central Carbon atom with all three of the others attached to it, this is called Isobutane. You don't know which you are talking about from just saying C4H10 alone.
Two compounds that have the same molecular formula but different structural formulas are isomers of each other.
Structural formulas show a representation of the molecular structure, while chemical formulas do not. This is especially important when multiple compounds have the same chemical formula, but a different molecular structure.
they are structual isomers. In alenes they will be e or z isomers ( cis trans0
Molecular formula is C2H5CH3COO . Structural formula is CH3COOCH2CH3 .
Isomers.
Two compounds that have the same molecular formula but different structural formulas are isomers of each other.
isomers
A molecular formula lists the numbers of the atoms of a specific element in a compound. A structural formula is a picture of how the atoms in a specific molecule are connected, with each atom represented by its chemical symbol. For example, oxygen's molecular formula is O2. Its structural formula is O-O.
draw a structural formula for organics, write a chemical formula (molecular formula or ionic formula) for simpler compounds.
draw a structural formula for organics, write a chemical formula (molecular formula or ionic formula) for simpler compounds.
Compounds that have the same atoms (molecular formula) but different in the connectivity between the atoms are constitutional (formerly 'structural') isomers.
Three organic compounds have this chemical formula.
Isomers are compounds that have the same molecular formula but different arrangements of atoms.
Structural formulas show a representation of the molecular structure, while chemical formulas do not. This is especially important when multiple compounds have the same chemical formula, but a different molecular structure.
Because unlike the empirical formula, the molecular formula does not have to be the simplest ratio.If by chance you are given the percent composition of the elements in a substance, you could calculate the empirical formula and then the empirical formula's mass. However, the molecular formula equation is molecular formula= (empirical formula)n, where n is the mass of the molecular formula divided by the mass of the empirical formula. You would, therefore, need to know the mass belonging to the molecular formula, which you are not given.
the answer is : A MOLECULAR FORMULA
they are structual isomers. In alenes they will be e or z isomers ( cis trans0