Answer:
Explanation:
1) Content of C:
All the C atoms in the 1.000 mg of caffeine will be found in the 1.813 mg of CO₂.
Since the atomic mass of C is 12.01 g/mol and the molar of of CO₂ is 44.01, there are 12 mg of C in 44 mg of CO₂ and you can set the proporton:
12.01 mg C / 44.01 mg CO₂ = x / 1.813 g CO₂
⇒ x = 1.813 × 12.01 / 44.01 g of C = 0.49475 mg of C
number of moles = mass in g / atomic mass = 0.49475×10⁻³ g / 12.01 g/mol = 4.1195×10⁻⁵ moles = 0.041195 milimol
2) Content of H
All the H atoms in the 1.000 mg of caffeine will be found in the 0.4639 mg of H₂O
Since the atomic mass of H is 1.008 g/mol and the molar of of H₂O is 18.015 g/mol, there are 2×1.008 mg of H in 18.015 mg of H₂O and you can set the proporton:
2×1.008 mg H / 18.015 mg H₂O = x / 0.4639 mg H₂O
⇒ x = 0.4639 mg H₂O × 2 × 1.008 mg H / 18.015 mg H₂O = 0.051913 mg H
number of moles = mass in g / atomic mass = 0.051913 ×10⁻³ g / 1.008 g/mol = 5.1501× 10⁻⁵ moles = 0.051501 milimol
3) Content of N
All the N atoms in the 1.000 mg of caffeine will be found in the 0.2885 mg of N₂
number of moles = mass in g / atomic mass = 0.2885 ×10⁻³ g / 14.007 g/mol = 2.0597× 10⁻⁵ moles = 0.020597 milimol
4) Content of O
The mass of O is calculated by difference:
Mass of O = 1.000 mg - 0.49475 mg C - 0.051913 mg H - 0.2885 mg N
Mass of O = 0.1648 mg
5) Ratios
Divide every number of mililmoles by the smallest number of milimoles:
6) Empirical formula:
7) Calculate the approximate mass of the empirical formula:
So, since that number is not between 150 and 200 g/mol, multiply by 2: 97 × 2 = 194, which is between 150 and 200.
Thus, the estimate is 194 g/mol
