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22 November, 04:18

Calculate q, w, ΔE, and ΔH, when 175 g of water evaporates at 1.00 atm and 100.0 °C. The heat of vaporization of water is 40.7 kJ/mol. q = kJ w = kJ ΔE = kJ ΔH = kJ

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  1. 22 November, 05:40
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    q = 395.6 kJ

    w = 30.1429 kJ

    ΔE = 365.4571 kJ

    ΔH = 395.6 kJ

    Explanation:

    First law of thermodynamics:

    ΔE = q - w

    (q is taken positive when enters to the system and w is taken positive when it is applied to the surroundings)

    number of moles = mass / molar mass = 175/18 = 9.72 mol of water

    ΔH = number of moles * heat of vaporization = 9.72*40.7 = 395.6 kJ

    At constant pressure:

    q = ΔH = 395.6 kJ

    When water evaporates, it is expanded, then the work is made on the surroundings. At constant pressure:

    W = n*R*T

    where n is the number of moles, R is the gas constant (8.314 J / (mol*K)) and T is the temperature (in K)

    W = 9.72*8.314 * (273 + 100) = 30142.9 J = 30.1429 kJ

    Finally:

    ΔE = q - w = 395.6 - 30.1429 = 365.4571 kJ
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Home » Chemistry » Calculate q, w, ΔE, and ΔH, when 175 g of water evaporates at 1.00 atm and 100.0 °C. The heat of vaporization of water is 40.7 kJ/mol. q = kJ w = kJ ΔE = kJ ΔH = kJ
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