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2 July, 00:53

The osmotic pressure of a solution containing 22.7 mg of an unknown protein in 50.0 mL of solution is 2.88 mmHg at 25 C. Determine the molar mass of the protein.

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  1. 2 July, 03:29
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    Molar mass for the protein is 2929.03 g/mol

    Explanation:

    To determine the osmotic pressure (one of the four colligative properties) we apply this formula:

    π = M. R. T

    π → Pressure

    It must be in atm, so let's convert the mmHg to atm

    2.88 mmHg. 1 atm / 760 mmHg = 0.00378 atm

    T → Absolute T° (K) = T°C + 273 → 25°C + 273 = 298K

    R = 0.082 L. atm/mol. K

    Let's replace dа ta: 0.00378 atm = M. 0.082 L. atm/mol. K. 298K

    0.00378 atm / (0.082 L. atm/mol. K. 298K) = M

    1.55*10⁻⁴ mol/L = M

    These are the moles of protein that are contained in 1L of solution, but our volume is 50mL. Let's convert it to L

    50mL. 1L / 1000 mL = 0.05 L

    Now we can determine the moles of protein we used

    1.55*10⁻⁴ mol/L. 0.05L = 7.75*10⁻⁶ moles

    This moles corresponds to 22.7 mg of mass. Let's convert the mg to g to find out the molar mas mass

    22.7 mg. 1g / 1000 mg = 0.0227 g

    Molar mass → g/mol → 0.0227 g / 7.75*10⁻⁶ moles = 2929.03 g/mol
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