The total energy required to convert the unknown liquid to gas at the given temperature is 7.215 kJ.
The given parameters;
The total heat required to convert the liquid to gas is calculated as follows;
H = Heat to raise to boiling temp. + Heat to vaporize the liquid + Heat of gas vapor
The heat required to raise the temperature of the liquid to boiling point;
[tex]H_1 = mc\Delta t\\\\H_1 = 19.8 \times 1.58 \times (57.3 - 19.2)\\\\H_1 = 1,191.92 \ J\\\\H_1 = 1.1919 \ kJ[/tex]
The number of moles of the liquid is calculated as;
[tex]moles= \frac{19.8 \ g}{83.21 \ g/mol} = 0.238 \ mol[/tex]
The heat required to vaporize the liquid;
[tex]H_2 = n H_{vap}\\\\H _2 = 0.238 \times 22.5\\\\H_2 = 5.355\ kJ[/tex]
The heat of the gas vapor is calculated as;
[tex]H_3 = mc_g \Delta t\\\\H_3 = 19.8 \times 0.932 \times (93.5- 57.3)\\\\H_3 = 668.02 \ J\\\\H_3 = 0.668 \ kJ[/tex]
The total energy required to convert the unknown liquid to gas at the given temperature is calculated as;
[tex]H_{total} = 1.1919 \ kJ \ + \ 5.355 \ kJ \ + \ 0.668 \ kJ\\\\H_{total} = 7.215 \ kJ[/tex]
Thus, the total energy required to convert the unknown liquid to gas at the given temperature is 7.215 kJ.
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