One mole of this substance would mass at 86 grams because Carbon has a mass of 12 grams per mole and Hydrogen has a mass at 1 gram per mole. Therefore 12*6+1*14=86.
It is called the molar mass of that compound. In other words, the total mass of all of the elements in a compound is equal to one mole of that compound.
The empirical formula CH2 has a formula mass of 14, and 42.0/14 = 3. Therefore, the molecular formula is C3H6.
This is impossible. In order to find this you must know the elements in the compound
C26h38o4
The molecular formula of this compound is N2H2. This is obvious because the empirical formula of a compound is the lowest positive integer ratio of atoms present.
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It is called the molar mass of that compound. In other words, the total mass of all of the elements in a compound is equal to one mole of that compound.
The molecular formula of a compound can not be determined solely based on its molar mass. In this case, without additional information, it is not possible to determine the molecular formula of the compound CH2.
C5h10
The term formula mass is generally defined as the mass of a unit cell in an ionic compound. Molecular compounds are just defined in terms of molecular mass.
C6h12o6
C4H6. C2H3 gives a molecular mass of 27, 54/27 gives 2. Therefore the molecular formula is twice the empirical formula.
The molecular mass of a compound with the formula CH2O is approx. 30, not 120.
The empirical formula CH2 has a formula mass of 14, and 42.0/14 = 3. Therefore, the molecular formula is C3H6.
This is impossible. In order to find this you must know the elements in the compound
C26h38o4
The molecular formula of this compound is N2H2. This is obvious because the empirical formula of a compound is the lowest positive integer ratio of atoms present.