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Calculate the heat energy released when 13.3 g of liquid mercury at 25.00 C is converted to solid mercury at its melting point.Constants for mercury at 1 atmheat capacity of Hg(l) 28.0 J/(mol K)melting point 234.32 Kenthalphy of fusion 2.29 KJ/mol

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Answer:

[tex]-270.321012\ J[/tex]

Explanation:

[tex]C_v[/tex] = Heat capacity of Hg = 28 J/mol

[tex]\Delta T[/tex] = Change in temperature = [tex](234.32-(273.15+25))[/tex]

[tex]\Delta H_{f}[/tex] = Enthalpy of fusion = 2.29 kJ/mol

The number of moles is given by

[tex]n=13.3\times \dfrac{1}{200.59}\\\Rightarrow n=0.0663\ molHg[/tex]

Heat is given by

[tex]Q_1=nC_v\Delta T\\\Rightarrow Q_1=0.0663\times 28\times (234.32-(273.15+25))\\\Rightarrow Q_1=-118.494012\ J[/tex]

Heat released is given by

[tex]Q_2=-n\Delta H_{f}\\\Rightarrow Q_2=-0.0663\times 2.29\times 10^3\\\Rightarrow Q_2=-151.827\ J[/tex]

Total heat is given by

[tex]Q=Q_1+Q_2\\\Rightarrow Q=-118.494012+(-151.827)\\\Rightarrow Q=-270.321012\ J[/tex]

The total heat released is [tex]-270.321012\ J[/tex]

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