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17 February, 14:06

The molar heat of vaporization for water is 10.79 kJ/mol. How much energy must be absorbed by 100 grams

of water at 100 °C in order to convert it to steam at 100 °C?

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  1. 17 February, 14:27
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    59.87 kJ

    Explanation:

    In the question, we are given;

    Molar heat of Vaporization as 10.79 kJ/mol Mass of water at 100°C is 100 g

    We are required to calculate the amount of heat energy absorbed to convert water at 100°C to steam at 100°C.

    The process of converting water from liquid state to solid state without change in temperature is known as condensation. We are given the molar heat of vaporization as 10.79 kJ/mol, this means 1 mole of water will absorb 10.79 kJ when converted to ice without change in temperature. Therefore, we can first calculate the number of moles of water;

    Moles = Mass : Molar mass

    Molar mass of water = 18.02 g/mol

    Moles of water = 100 g : 18.02 g/mol

    = 5.549 moles

    But;

    Q = n * ΔHv, where n is the number of moles and ΔHv molar heat of Vaporization.

    Therefore;

    Q = 5.549 moles * 10.79 kJ/mol

    = 59.874 kJ

    = 59.87 kJ

    Thus, the amount of heat absorbed is 59.87 kJ
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