C6H12O6 Molecular Weight: 180
This is also known now as Glucose (Sugar).
^^ this isn't completely correct... yes dextrose is a sugar but its not the same as glucose at all... (glucose, fructose, sucrose, and dextrose are all sugars but they have different chemical make-ups)
i don't know the exact answer but i don't want you to be misled
== == For some reason, my calculations came up with the empirical formula for sucrose being COH2.
Wiki says the molecular formula is something much larger as expected.
Basically, all sugars have the ratio of C:H:O of 1:2:1, and as a result, all have the same empirical formula . That being said, any sugar can be a multiple of that ratio (except having non-integer numbers of atoms - .5 atoms) so sucrose (C11H22O11)/11 = that magic ratio of 1:2:1.
Molecular formulas that are also empirical formulas include compounds like water (H2O), methane (CH4), and hydrogen peroxide (H2O2). In these cases, the molecular formula is the same as the empirical formula because the compounds consist of only one type of atom.
To obtain the empirical formula from the molecular formula, divide each subscript by the greatest common factor of all subscripts. For sucrose, the greatest common factor between 11, 22, and 11 is 11. Dividing each subscript by 11 gives the empirical formula CH2O.
To calculate the molecular formula from the empirical formula, you need to determine the molecular mass of the compound and then divide it by the empirical formula mass to find the factor between the two. If the factor is 6, it means the molecular formula is 6 times the empirical formula, indicating that there are 6 times as many atoms of each element in the molecular formula compared to the empirical formula.
The molecular formula of sucrose is C12H22O11.
Molecular formulas show the actual number of atoms of each element in a compound, while empirical formulas show the simplest whole number ratio of the atoms in a compound. Molecular formulas provide more specific information about the compound's composition compared to empirical formulas.
An empirical formula is a brutto formula; a molecular formula explain the structure of a molecule.
The empirical formula for maltose is C12H22O11, for sucrose it is C12H22O11, and for lactose it is C12H22O11. This means that all three sugars have the same empirical formula.
A molecular formula is identical to the empirical formula, and is based on quantity of atoms of each type in the compound.The relationship between empirical and molecular formula is that the empirical formula is the simplest formula, and the molecular can be the same as the empirical, or some multiple of it. An example might be an empirical formula of C3H8. Its molecular formula may be C3H8 , C6H16, C9H24, etc. Looking at it the other way, if the molecular formula is C6H12O6, the empirical formula would be CH2O.
A molecular formula is identical to the empirical formula, and is based on quantity of atoms of each type in the compound.The relationship between empirical and molecular formula is that the empirical formula is the simplest formula, and the molecular can be the same as the empirical, or some multiple of it. An example might be an empirical formula of C3H8. Its molecular formula may be C3H8 , C6H16, C9H24, etc. Looking at it the other way, if the molecular formula is C6H12O6, the empirical formula would be CH2O.
A molecular formula is identical to the empirical formula, and is based on quantity of atoms of each type in the compound.The relationship between empirical and molecular formula is that the empirical formula is the simplest formula, and the molecular can be the same as the empirical, or some multiple of it. An example might be an empirical formula of C3H8. Its molecular formula may be C3H8 , C6H16, C9H24, etc. Looking at it the other way, if the molecular formula is C6H12O6, the empirical formula would be CH2O.
A molecular formula is identical to the empirical formula, and is based on quantity of atoms of each type in the compound.The relationship between empirical and molecular formula is that the empirical formula is the simplest formula, and the molecular can be the same as the empirical, or some multiple of it. An example might be an empirical formula of C3H8. Its molecular formula may be C3H8 , C6H16, C9H24, etc. Looking at it the other way, if the molecular formula is C6H12O6, the empirical formula would be CH2O.
Molecular formulas that are also empirical formulas include compounds like water (H2O), methane (CH4), and hydrogen peroxide (H2O2). In these cases, the molecular formula is the same as the empirical formula because the compounds consist of only one type of atom.
To obtain the empirical formula from the molecular formula, divide each subscript by the greatest common factor of all subscripts. For sucrose, the greatest common factor between 11, 22, and 11 is 11. Dividing each subscript by 11 gives the empirical formula CH2O.
To calculate the molecular formula from the empirical formula, you need to determine the molecular mass of the compound and then divide it by the empirical formula mass to find the factor between the two. If the factor is 6, it means the molecular formula is 6 times the empirical formula, indicating that there are 6 times as many atoms of each element in the molecular formula compared to the empirical formula.
An empirical formula is elaborated after the chemical analysis of a compound; for a structural formula more in depth studies are necessary.
Any molecular formula where the subscripts do not have a common factor that can divide them all. For example: CH4 (methane) is a molecular formula that is also an empirical formula because there is no number (other then one) that can divide both the 4 and the 1. Take ethane as another example. It hasn't the empirical formula which is similar to the molecular formula.
The molecular formula of sucrose is C12H22O11.