if 0.78g of X was found to contain 0.72g of carbon

To determine the percentage composition of X, we need to find the percentage of carbon in X.

The percentage composition of carbon in X is calculated as follows:

Percentage composition of carbon = (mass of carbon / mass of X) * 100

Given that 0.78g of X contains 0.72g of carbon, the percentage composition of carbon in X is:

Percentage composition of carbon = (0.72g / 0.78g) * 100 = 92.31%

Therefore, the percentage composition of X is: Carbon - 92.31% and other elements (assumed to be hydrogen, oxygen, etc.) - 7.69%.

To determine the empirical formula of X, we need to find the simplest ratio of the elements in X.

Since the percentage composition of X indicates that carbon is the major component, we assume that X is composed mainly of carbon.

To find the empirical formula, we assume that X contains 100g of mass for ease of calculation.

Given that X contains 92.31g of carbon, the empirical formula of X is:

C92.31 = C3H0.81 (approximately)

Since we cannot have a fractional subscript in a empirical formula, we multiply all the subscripts by 4, which gives us:

C12H3 (empirical formula of X)

To determine the molecular formula of X, we need the vapour density of X.

Vapour density is calculated as follows:

Vapour density = (molecular weight of X) / 2

Given that the vapour density of X is 39, we can calculate the molecular weight of X as follows:

Molecular weight of X = 39 * 2 = 78

The empirical formula of X has a molecular weight of 12 + 3(1) = 15.

To find the molecular formula, we divide the molecular weight of X (78) by the empirical formula weight (15), which gives us:

78 / 15 = 5.2 (approximately)

Therefore, the molecular formula of X is:

(C12H3)n, where n ≈ 5