CO is both an empirical formula and a molecular formula.
It is a molecule of Carbon Monoxide
c6h8o6
The gram molecular mass of the molecule must be measured by some independent method such as freezing point depression or boiling point elevation. Then the factor by which to multiply all of the subscripts in the empirical formula to get the molecular formula is the closest integer to the ratio of gram molecular mass to the gram molecular mass of a single unit of the empirical formula.
c2o4
CO is molecular
Since carbon monoxide is not an ionic compound it technically doesn't have an ionic formula. The molecular formula for carbon monoxide is CO
c6h8o6
Emperical formula for ethylene( ethene) is CH2 Molecular formula for ethylene (ethene) is H2C=CH2 Emperical formula for benzene is CH Molecular formula for benzene is C6H6
emperical formula- CH2
The gram molecular mass of the molecule must be measured by some independent method such as freezing point depression or boiling point elevation. Then the factor by which to multiply all of the subscripts in the empirical formula to get the molecular formula is the closest integer to the ratio of gram molecular mass to the gram molecular mass of a single unit of the empirical formula.
What you have listed is the molecular formula, C6H4Cl2, the molecular formula is a multiple of the empirical formula in this case being C3H2Cl.
c2o4
The emperical formula is XY4
An empirical formula represents the simplest whole-number ratio of atoms in a compound. It does not provide information about the actual number of atoms present in a molecule. To determine the empirical formula, one must divide the subscripts of the compound's molecular formula by the greatest common divisor to obtain the simplest ratio.
The empirical formula of water is H2O.
SrF2
An empirical formula contains the constituent elements in the lowest possible mathematical whole-number ratio. In some cases, this is the legitimate formula for the compound, particularly if the substance you're dealing with is an ionic compound. Sometimes, however, the actual formula, known as the molecular formula, is a whole-number multiple of the empirical formula. The molecular formula for glucose is C6H12O6. However, an empirically-derived formula for glucose would be CH2O, which is the lowest possible ratio of carbon, hydrogen, and oxygen in that compound.
How the emperical formula relating to number of images formed in two inclined mirror?