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11 November, 14:19

A quantity of 7.480 g of an organic compound is dissolved in water to make 300.0 mL of solution. The solution has an osmotic pressure of 1.43 atm at 27°C. The analysis of this compound shows that it contains 41.8 percent C, 4.7 percent H, 37.3 percent O, and 16.3 percent N. Calculate the molecular formula of the compound

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  1. 11 November, 14:39
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    C5H6N2O3

    Explanation:

    First the empirical formulas

    C = 41.8:12 = 2.48

    H = 4.7:1 = 4.7

    O = 37.3: 16 = 2.33

    N = 16.3:14 = 1.16

    Divide by the smallest

    C = 3.48/1.16=3

    H = 4.7/1.16=4.1

    O = 2.33/1.16=2

    N = 1.16/1.16=1

    Therefore empirical formula = C3H4NO2

    To calculate molecular formula for osmotic pressure,

    π = cRT

    Or

    π=cgRT/M where cg is in g/liter & T is temperature in Kelvin. Thus

    π = (7.480*0.0821*300) / M

    M = 184.23/1.43

    M = 128.83

    To find molecular Formula

    Molecular Mass = (empirical mass) n

    128.83 = (C3H4NO2) n

    128.83 = 86n

    n = 1.5

    Therefore the molecular formula

    (C3H4NO2) 1.5

    = C4.5H6N1.5O3

    Approximately

    C5H6N2O3
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Home » Chemistry » A quantity of 7.480 g of an organic compound is dissolved in water to make 300.0 mL of solution. The solution has an osmotic pressure of 1.43 atm at 27°C. The analysis of this compound shows that it contains 41.8 percent C, 4.7 percent H, 37.
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