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12 July, 23:11

A 10.21 mol sample of argon gas is maintained in a 0.7564 L container at 296.9 K. What is the pressure in atm calculated using the van der Waals' equation for Ar gas under these conditions? For Ar, a = 1.345 L2atm/mol2 and b = 3.219*10-2 L/mol.

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  1. 13 July, 01:44
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    The pressure in atm calculated using the van der Waals' equation, is 337.2atm

    Explanation:

    This is the Van der Waals equation for real gases:

    (P + a/v²) (v-b) = R. T

    where P is pressure

    v is Volume/mol

    R is the gas constant and T, T° in K

    a y b are constant for each gas, so those values are data, from the statement.

    [P + 1.345 L²atm/mol² / (0.7564L/10.21mol) ² ] (0.7564L/10.21mol - 3.219*10-2 L/mol) = 0.082 L. atm/mol. K. 296.9K

    [P + 1.345 L²atm/mol² / 5.48X10⁻³ L²/mol²] (0.074 L/mol - 3.219*10-2 L/mol) = 0.082 L. atm/mol. K. 296.9K

    (P + 245.05 atm) (0.04181L/mol) = 0.082 L. atm/mol. K. 296.9K

    (P + 245.05 atm) (0.04181L/mol) = 24.34 L. atm/mol

    0.04181L/mol. P + 10.24 L. atm/mol = 24.34 L. atm/mol

    0.04181L/mol. P = 24.34 L. atm/mol - 10.24 L. atm/mol

    0.04181L/mol. P = 14.1 L. atm/mol

    P = 14.1 L. atm/mol / 0.04181 mol/L

    P = 337.2 atm
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