Answer:
55536.6 J
Explanation:
Given:
Mass of the ice = 54g
Initial temperature = 0°C
Final Temperature = 100°C
Mass of the steam = 6.6g
Now the energy required for the transformation of the ice to vapor will involve the heat requirement in the following stages as:
1) The energy required to melt ice = mass of ice × heat of fusion of water = 54g × 334 J/g = 18036 J
(because heat of fusion for water = 334 J/g)
2) The energy to heat water from 0 to 100 = mass of water × specific heat of water × change in temperature = 54g × 4.186 J/g°C × 100 °C = 22604.4 J
lastly,
3) the energy required to vaporize 6.6g of water = mass of water × heat of vaporization of water = 6.6 × 2257 J/g = 14896.2 J
Thus,
the total energy required to transform the ice cube to accomplish the transformation = 18036 + 22604.4 + 14896.2 = 55536.6 J.
