1 kg of ice at 0∘C is mixed with 1 kg of steam at 100∘C. What will be the composition of the system when thermal equilibrium is reached? Latent heat of fusion of ice = 3.36 × 105 J kg−1 and latent heat of vaporization of water = 2.26 × 106 J kg−1
665 gm steam, 1.335 kg water
As the mass of ice and steam is the same, and the latent heat of fusion Latent heat of vaporizing, let us start by assuming that all the ice converts to water at 0°C, then heats up to water at 100∘C, in the process converting some of the steam to water at 100∘C. Don't worry, if our assumption is incorrect, the mass of water will come out negative and we can then consider other possibilities!
So, Heat gained during ice at 0∘C → water at 100∘C
Q1 = mL1 + msΔT
m = 1kg
L1 → Latent heat of fusion
ΔT = 100∘C
S→ specific heat of water
⇒ Q1 = L1 + 100S
Now, heat released by x kg steam converted to water at → is
Q2 = xL2
Where, L2→ latent heat of vaporization
But, Q1 = Q2
L1 + 100 S = xL2
⇒ x = L1 + 100sL2
⇒ x = 0.335 kg steam converts to water
∴ Amount of steam left = (1 − 0.335)kg