C2H6 is a gas (in chemistry), similar to methane, propane, and butane. I'm not sure what the name of this gas is, but it ends in -ane. Sure of that.
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.
c12h24
The information about the actual molar mass is superfluous. Given any molecular formula, the corresponding empirical may be obtained by dividing all the subscripts in the molecular by the largest integer that yield an integer quotient for each subscript. In the given formula, the empirical formula is CH2.
You think to propene, a member of the alkenes group - C3H7.
C3H6 is the chemical formula of propylene and CH2 is the chemical formula of the group methylene or carbene.
c12h24
The molecular formula of the compound CH2 with a molar mass of 168 is C7H14. This molecular formula satisfies the condition of having two hydrogen atoms bonded to each carbon atom, resulting in a molar mass of 168 g/mol.
The molar mass of lauryl alcohol (C12H26O) is 186,34.
The molecular formula of compound CH2 with a molar mass of 42.0 g/mol is C2H4, which is ethylene. Each carbon has a molar mass of 12.0 g/mol, and each hydrogen has a molar mass of 1.0 g/mol, totaling 42.0 g/mol.
C = 12H = 1 x 2 = 2-----------------total = 14 g/mole for empirical56.11/14 = 4.00 so there are 4 empirical formulae in 56.11 gChemical formula = C4H8
The molecular formula of the compound CH2 with a molar mass of 168 g/mol is C8H16 since the molar mass of carbon is approximately 12 g/mol and the molar mass of hydrogen is approximately 1 g/mol. This is calculated by multiplying the subscripts in CH2 by their respective atomic masses and then calculating the total molar mass.
The molar mass of CH2 is 14 g/mol (carbon: 12 g/mol, hydrogen: 1 g/mol). To get a molar mass of 168 g/mol, we need to multiply CH2 by 12. The molecular formula for the compound with a molar mass of 168 g/mol would be C12H24.
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.
c12h24
The molecular formula of the compound is C2H4, which has a molar mass of 28 g/mol. Since the given compound has a molar mass of 42.0 g/mol, it must include an additional CH2 group, resulting in the molecular formula C2H6.
The molecular formula for a compound with a molar mass of 84 g/mol and a CH2 composition would be C4H8. This can be calculated by dividing the molar mass by the molar mass of a CH2 molecule (14 g/mol), which gives 6.
The molar mass of styrene (C8H8) is 104 g/mol. The empirical formula is CH, which has a molar mass of 13 g/mol. To find the multiplier to get the molecular formula from the empirical formula, divide the molar mass of the molecular formula by the molar mass of the empirical formula: 104 g/mol / 13 g/mol = 8. This means the multiplier is 8, and the molecular formula of styrene is C8H8.