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1 January, 17:29

When a 6.00 g sample of KBr is dissolved in water in a calorimeter that has a total heat capacity of 2.71 kJ ⋅ K - 1, the temperature decreases by 0.370 K. Calculate the molar heat of solution of KBr.

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  1. 1 January, 17:39
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    Molar heat enthalpy of KBr = - 19.89 kJ/mol

    Explanation:

    Change in temperature (Δt) = 0.370 K

    Heat capacity = 2.71 kJ ⋅ K^-1

    Heat absorbed by calorimeter = heat capacity * change in temperature

    = 2.71 * 0.370

    = 1.0027 kJ

    Molar mass of KBr = 119 g/mol

    No. of moles of KBr = 6.00/119

    = 0.0504 mol

    Heat absorbed by the calorimeter is given by KBr.

    Now calculate the heat released by per mol of KBr as follows:

    Heat released by per mol of KBr = 1.0027 kJ / 0.0504 mol

    =19.89 kJ/mol

    Heat is released therefore, sign will be negative.

    Molar heat enthalpy of KBr = - 19.89 kJ/mol
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