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3 December, 06:31

n a system for separating gases a tank containing a mixture of hydrogen and carbon dioxide is connected to a much larger tank where the pressure is kept very low. The two tanks are separated by a porous membrane through which the molecules must effuse. If the initial partial pressures of each gas is 5.00 atm, what will be the mole fraction of hydrogen in the tank after the partial pressure of carbon dioxide has declined to 4.50 atm

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  1. 3 December, 06:56
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    The mol fraction of the hydrogen gas = 0.526

    Explanation:

    Step 1: data given

    mixture of hydrogen and carbon dioxide

    the initial partial pressures of each gas is 5.00 atm

    the partial pressure of carbon dioxide has declined to 4.50 atm

    Step 2: Calculate total pressure

    Total pressure = 4.5 atm + 5.0 atm

    Total pressure = 9.5 atm

    Step 3: Calculate mol fraction

    Partial pressure = mole fraction * total pressure

    Mol fraction = partial pressure / total pressure

    Mol fraction carbon dioxide = 4.5 atm / 9.5 atm

    Mol fraction carbon dioxide = 0.474

    Mol fraction of hydrogen = 1 - 0.474 = 0.526

    The mol fraction of the hydrogen gas = 0.526
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