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17 August, 01:25

In a laboratory, 1.55mg of an organic compound containing carbon, hydrogen, and oxygen is burned for analysis. This combustion resulted in the formation of 1.45mg of carbon dioxide and. 89 mg of water. What is the empirical formula for this compound?

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  1. 17 August, 04:10
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    CH₃O

    Step-by-step explanation:

    1. Calculate the mass of each element

    Mass of C = 1.45 mg CO₂ * (12.01 mg C/44.01 mg CO₂) = 0.3957 mg C

    Mass of H = 0.89 mg H₂O * (2.016 mg H/18.02 mg H₂O) = 0.0996 mg H

    Mass of O = Mass of compound - Mass of C - Mass of H = (1.55 - 0.3957 - 0.0996) mg = 1.055 mg

    2. Calculate the moles of each element

    Moles of C = 0.3957 mg C * 1mmol C/12.01 mg C = 0.03295 mol C

    Moles of H = 0.0996 mg H * 1 mmol H/1.008 mg H = 0.0988 mol H

    Moles of O = 1.055 mg O * 1 mmol O / 16.00 mg O = 0.06592 mol O

    3. Calculate the molar ratios

    Divide all moles by the smallest number of moles.

    C: 0.032 95/0.032 95 = 1

    H: 0.0988/0.032 95 = 2.998

    O: 0.065 92/0.032 95 = 2.001

    4. Round the ratios to the nearest integer

    C:H:O = 1:3:2

    5. Write the empirical formula

    The empirical formula is CH₃O.
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