In this article, we shall study the concept of empirical formula and a molecular formula of a compound.

Empirical Formula:

The empirical formula of a substance represents the simplest relative whole number ratio of the atoms of each element contained in the molecule of the substance.

Example: the empirical formula for glucose is CH₂O. Thus the molecule of glucose contains atoms of carbon, hydrogen and oxygen in the ratio 1:2:1.

Molecular Formula:

The formula which gives an actual number of atoms of different elements present in the molecule of the compound is called molecular formula.

Example: A molecular formula for glucose is C₆H₁₂O₆. Thus the molecule of glucose contains 6 atoms of carbon, 12 atoms of hydrogen and 6 atoms oxygen.

The molecular formula is a simple multiple of the empirical formula. The relation between Empirical formula and the molecular formula is given by

Molecular formula = n x Empirical formula

Where n is a whole number and is a ratio of molecular mass to empirical formula mass.

e.g. The empirical formula for glucose is CH₂O.

Thus the empirical formula mass of glucose is (12 x 1 + 1 x 2 + 16 x 1  = 30 )

The molecular formula for glucose is C₆H₁₂O₆

Thus the molecular mass of glucose is (12 x 6 + 1 x 12 + 16 x 6  = 180 )

Now, Molecular formula mass = n x Empirical formula mass

∴ 180 = n x 30

∴ n = 6

Determination of Empirical Formulae/ Molecular Formulae:

Following steps are involved in the determination of empirical formula of organic compound.

1. Determination of atomic ratio: The percentage concentration of each element in the compound is divided by its respective atomic weight to get the atomic ratio. It is to be noted that if the sum of the percentage of constituent elements is not 100%, then the rest of the percentage is assumed to be that of oxygen.
2. Determination of simplest ratio: The ratio so obtained is divided by the smallest ratio in order to obtain the least ratio or the simplest ratio.
3. Determination of whole-number ratio: If the ratios are fractional, reduce them to the smallest possible whole numbers by multiplying throughout by suitable integer. This gives the simplest whole-number ratio.
4. Writing the empirical formula: Write down the symbols present side by side with the above numbers as a subscript to the lower right corner of each. This gives the empirical or the simplest formula.
5. Find the value of n: Find the value of the ratio of molecular mass to empirical formula mass and denote it as n
6. Find molecular formula using relation

Molecular Formula = n x Empirical Formula.

Numerical Problems:

Example – 01:

An organic substance contains 65% carbon, 3.5 % hydrogen and 9.59%  nitrogen. Find its empirical formula.

Solution:

The sum of the percentage of carbon, hydrogen and nitrogen is not 100%.

Hence the rest of the part of the compound is oxygen.

Percentage of oxygen = 100 – (65 + 3.5 + 9.59) = 21.91%

The simplest ratio of C to H to N to O is 8:5:1:2

Hence empirical formula = Ans. C₈H₅NO₂.

Example – 02:

An organic compound contains C, H, and O and is found to have 32% carbon, 4% of hydrogen, the remaining being oxygen. What is the molecular formula? If it contains six atoms of oxygen per molecule?

Solution:

The sum of the percentage of carbon and hydrogen s not 100%.

Hence the rest of the part of the compound is oxygen.

Percentage of oxygen = 100 – (32+4) = 64%

The simplest ratio is 1 :1.5:1.5 i.e. 2:3:3

Hence emperical formula of compound is C₂H₃O₃.

The compound contains six atoms of oxygen

n = Number of oxygen in molecular formula/Number of oxygen in molecular formula = 6/3 =2

Therefore, molecular formula = 2 x (Empirical formula)

Molecular formula = 2 x (C₂H₃O₃) = C₄H₆O₆

The molecular formula for the compound is C₄H₆O₆

Example – 03:

An organic compound contains 40% carbon, 6.66% of hydrogen.  What is the molecular formula of the compound? If its molecular weight is 180.

Solution:

The sum of the percentage of carbon and hydrogen is not 100%.

Hence the rest of the part of the compound is oxygen.

Percentage of oxygen = 100 – (40 + 6.66) = 53.34%

Simplest ratio = 1:2:1

Hence empirical formula = CH₂O.

Empirical formula weight = 12 x 1 + 1 x 2 + 16 x 1 = 30

n = Molecular mass / empirical formula mass = 180/30 = 6

Therefore, molecular formula = n x (Empirical formula)

Molecular formula= 6 x (CH₂O)

Molecular formula = C₆H₁₂O₆.

Therefore molecular formula of the organic compound is C₆H₁₂O₆.

Example – 04:

An organic monobasic acid contains 18.6% carbon, 1.55% of hydrogen, 55.04% chlorine, and 24.81% oxygen.  What is the molecular formula of the acid, If its molecular weight is 129?

Solution:

The sum of the percentage of carbon, hydrogen, and chlorine is not 100%.

Hence the rest of the part of the compound is oxygen.

Percentage of oxygen = 100 – (18.6 + 1.55 + 55.04) =  24.81%

Simplest ratio = 1:1:1:1

Hence empirical formula = CHClO.

Empirical formula weight = 12 x 1 + 1 x 1 + 35.5 x 1 + 16 x 1 = 64.5

n = Molecular mass / empirical formula mass = 129/64.5 = 2

Therefore, molecular formula = n x (Empirical formula)

Molecular formula = 2 x (CHClO)

Molecular formula = C₂H₂Cl₂O₂.

Therefore molecular formula of the organic acid is C₂H₂Cl₂O₂.

But the acid is monobasic acid, hence it should contain one – COOH group

i.e. the molecular formula of organic monobasic acid is CHCl₂COOH.

Example – 05:

Analysis of Vitamin C shows that it contains 40.92% carbon by mass, 4.58% hydrogen, and 54.50% oxygen. Determine the simplest formula of vitamin C.

Solution:

The simplest ratio is 1 :1.3:1 i.e. 3:4:3

Hence the simplest formula of vitamin C is C₃H₄O₃.

Science > Chemistry > Introduction to Organic Chemistry > Empirical and Molecular Formulae of Organic Compounds

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In this article we shall study the concept of empirical formula and molecular formula of Compound.

Empirical Formula:

The empirical formula of a substance represents the simplest relative whole number ratio of the atoms of each element contained in the molecule of the substance.

Example: the empirical formula for glucose is CH₂O. Thus the molecule of glucose contains atoms of carbon, hydrogen and oxygen in the ratio 1:2:1.

Molecular Formula:

The formula which gives an actual number of atoms of different elements present in the molecule of the compound is called molecular formula.

Example: A molecular formula for glucose is C₆H₁₂O₆. Thus the molecule of glucose contains 6 atoms of carbon, 12 atoms of hydrogen and 6 atoms oxygen.

The molecular formula is a simple multiple of the empirical formula. The relation between Empirical formula and the molecular formula is given by

Molecular formula = n x Empirical formula

Where n is a whole number and is a ratio of molecular mass to empirical formula mass.

e.g. The empirical formula for glucose is CH₂O.

Thus the empirical formula mass of glucose is (12 x 1 + 1 x 2 + 16 x 1  = 30 )

The molecular formula for glucose is C₆H₁₂O₆

Thus the molecular mass of glucose is (12 x 6 + 1 x 12 + 16 x 6  = 180 )

Now, Molecular formula mass = n x Empirical formula mass

∴ 180 = n x 30

∴ n = 6

Determination of Empirical Formulae/ Molecular Formulae:

Following steps are involved in the determination of empirical formula of organic compound.

Determination of atomic ratio :

The percentage concentration of each element in the compound is divided by its respective atomic weight to get atomic ratio. It is to be noted that if the sum of the percentage of constituent elements is not 100%, then the rest of the percentage is assumed to be that of oxygen.

Determination of simplest ratio :

The ratio so obtained is divided by the smallest ratio in order to obtain the least ratio or the simplest ratio.

Determination of whole number ratio :

If the ratios are fractional, reduce them to smallest possible whole numbers by multiplying throughout by suitable integer. This gives simplest whole number ratio.

Writing the empirical formula :

Write down the symbols present side by side with the above numbers as a subscript to lower right corner of each. This gives the empirical or the simplest formula.

Find the value of n:

Find the value of the ratio of molecular mass to empirical formula mass and denote it as n

Writing Molecular Formula:

Find molecular formula using relation molecular formula = n x empirical formula.

Numerical Problems:

Example – 01:

An organic substance contains 65% carbon, 3.5 % hydrogen and 9.59%  nitrogen. Find its empirical formula.

Solution:

The sum of the percentage of carbon, hydrogen and nitrogen is not 100%.

Hence the rest of the part of the compound is oxygen.

Percentage of oxygen = 100 – (65 + 3.5 + 9.59) = 21.91%

The simplest ratio of C to H to N to O is 8:5:1:2

Hence empirical formula = Ans. C₈H₅NO₂.

Example – 02:

An organic compound contains C, H, and O and is found to have 32% carbon, 4% of hydrogen, the remaining being oxygen. What is the molecular formula? If it contains six atoms of oxygen per molecule?

Solution:

The sum of the percentage of carbon and hydrogen s not 100%.

Hence the rest of the part of the compound is oxygen.

Percentage of oxygen = 100 – (32+4) = 64%

The simplest ratio is 1 :1.5:1.5 i.e. 2:3:3

Hence emperical formula of compound is C₂H₃O₃.

The compound contains six atoms of oxygen

n = Number of oxygen in molecular formula/Number of oxygen in molecular formula = 6/3 =2

Therefore, molecular formula = 2 x (Empirical formula)

Molecular formula = 2 x (C₂H₃O₃) = C₄H₆O₆

The molecular formula for the compound is C₄H₆O₆

Example – 03:

An organic compound contains 40% carbon, 6.66% of hydrogen.  What is the molecular formula of the compound? If its molecular weight is 180.

Solution:

The sum of the percentage of carbon and hydrogen is not 100%.

Hence the rest of the part of the compound is oxygen.

Percentage of oxygen = 100 – (40 + 6.66) = 53.34%

Simplest ratio = 1:2:1

Hence empirical formula = CH₂O.

Empirical formula weight = 12 x 1 + 1 x 2 + 16 x 1 = 30

n = Molecular mass / empirical formula mass = 180/30 = 6

Therefore, molecular formula = n x (Empirical formula)

Molecular formula= 6 x (CH₂O)

Molecular formula = C₆H₁₂O₆.

Therefore molecular formula of the organic compound is C₆H₁₂O₆.

Example – 04:

An inorganic compound is found to contain 28.9% potassium, 23.8 % sulphur, and rest oxygen. If it contains eight oxygen atoms per molecule, find its molecular formula.

Solution:

Percentage of oxygen = 100 – (28.9 + 23.8) = 47.3%

Simplest ratio = 1:1:4

Hence empirical formula = KSO₄.

The compound contains eight atoms of oxygen

n = Number of oxygen in molecular formula/Number of oxygen in molecular formula = 8/4 =2

Therefore, molecular formula = n x (Empirical formula)

Molecular formula= 2 x (KSO₄)

Molecular formula = K₂S₂O₈

Therefore molecular formula of the compound is K₂S₂O₈.

Example – 05:

A compound with molar mass 159 was found to contain 39.62% copper and 20.13% sulphur. Suggest the molecular formula of the compound. (Given: Cu = 65,s = 32, O= 16)

Solution:

The sum of the percentage of copper and sulphur is not 100%.

Hence the rest of the part of the compound is oxygen.

Percentage of oxygen = 100 – (39.62 + 20.13) = 40.25%

Simplest ratio = 1:1:4

Hence empirical formula = CuSO₄.

Empirical formula weight = 63 x 1 + 32 x 1 + 16 x 4 = 159

n = Molecular mass / empirical formula mass = 159/159 = 1

Therefore, molecular formula = n x (Empirical formula)

Molecular formula= 1 x (CuSO₄)

Molecular formula = CuSO₄.

Therefore molecular formula of the compound is CuSO₄.

Example – 06:

An organic monobasic acid contains 18.6% carbon, 1.55% of hydrogen, 55.04% chlorine, and 24.81% oxygen.  What is the molecular formula of the acid, If its molecular weight is 129?

Solution:

The sum of the percentage of carbon, hydrogen, and chlorine is not 100%.

Hence the rest of the part of the compound is oxygen.

Percentage of oxygen = 100 – (18.6 + 1.55 + 55.04) =  24.81%

Simplest ratio = 1:1:1:1

Hence empirical formula = CHClO.

Empirical formula weight = 12 x 1 + 1 x 1 + 35.5 x 1 + 16 x 1 = 64.5

n = Molecular mass / empirical formula mass = 129/64.5 = 2

Therefore, molecular formula = n x (Empirical formula)

Molecular formula = 2 x (CHClO)

Molecular formula = C₂H₂Cl₂O₂.

Therefore molecular formula of the organic acid is C₂H₂Cl₂O₂.

But the acid is monobasic acid, hence it should contain one – COOH group

i.e. the molecular formula of organic monobasic acid is CHCl₂COOH.

Example – 07:

Analysis of Vitamin C shows that it contains 40.92% carbon by mass, 4.58% hydrogen, and 54.50% oxygen. Determine the simplest formula of vitamin C.

Solution:

The simplest ratio is 1 :1.3:1 i.e. 3:4:3

Hence the simplest formula of vitamin C is C₃H₄O₃.

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