Answer:
1751399.8902 J
Explanation:
m = Mass of water = 74.6 kg
[tex]\Delta H_f[/tex] = Latent heat of fusion = [tex]3.34\times 10^5\ J/kg[/tex]
[tex]T_h[/tex] = 19.2°C
[tex]T_c[/tex] = 0°C
We have the equation for cold body
[tex]Q_c=m\Delta H_f[/tex]
We have the equation
[tex]\dfrac{Q_c}{Q_h}=\dfrac{T_c}{T_h}\\\Rightarrow Q_h=\dfrac{Q_cT_h}{T_c}\\\Rightarrow Q_h=\dfrac{m\Delta H_fT_h}{T_c}\\\Rightarrow Q_h=\dfrac{74.6\times 3.34\times 10^5\times (19.2+273.15)}{0+273.15}\\\Rightarrow Q_h=26667799.8902\ J[/tex]
Energy rejected to the room is 26667799.8902 J
Energy supplied to the device is given by
[tex]E=Q_h-m\Delta H_f\\\Rightarrow E=26667799.8902-74.6\times 3.34\times 10^5\\\Rightarrow E=1751399.8902\ J[/tex]
The energy supplied to the device is 1751399.8902 J
