Stir 0.25 kg of ice, initially at - 5^oC, into 0.5 kg of tea, initially at 45^oC. What is the final temperature?

c_w = 4186 J/(kg C^o)

c_i = 2090 J/(kg C^o)

L_f = 3.33 x 10⁵ J/kg

It seems reasonable to expect all the ice to melt and to have a final temperature between 0^oC and 45^oC. We will simply call this final temperature T_f. Then the change in temperature for the tea is

T₁ = T_f - T_1i

Anything = change in anything = (final value) - (initial value) 

T₁ = T_f - 45^oC

The heat transferred from the tea (or by the tea ) is

Q₁ = c_w m₁ T₁

Q₁ = [4186 J/(kg C^o)] [0.5 kg] [T_f - 45^oC]

Notice that [T_f - 95^oC] will be negative which means Q₁ will be negative. That means that Q₁ represents heat flowing from or out of the tea.

Q₁ = [4186 J/(kg C^o)] [0.5 kg] [T_f - 45^oC]

Q₁ = 2093 T_f J - 94,185 J

I have dropped the C^o in the first term, requiring that we measure T_f in units of C^o.

What about the change in temperature for the ice? What about the heat absorbed by the ice?

First the ice changes temperature from - 5^oC to 0^oC or a change of T_2a = 5^oC -- as ice! That involves heat of

Q_2a = c₂ m₂ T_2a

Q_2a = [2090 J/(kg C^o)] [0.25 kg] [0^oC - ( - 5^oC)]

Q_2a = [2090 J/(kg C^o)] [0.25 kg] [5^oC]

Q_2a = 2612.5 J

This is the heat required to raise the ice to a temperature of 0^oC.

Now all of the ice melts. That requires heat of

Q_2b = m₂ L_f

Q_2b = [0.25 kg] [3.33 x 10⁵ J/kg]

Q_2b = 8.33 x 10⁴ J = 83,300 J

Now, this 0.25 kg of water at 0^oC is raised in temperature to the final temperature T_f; that requires heat of

Q_2c = c_w m₂ T₂

Q_2c = [4186 J/(kg C^o)] [0.25 kg] [T_f - 0^oC]

Q_2c = [1046.5 J/C^o] [T_f ]

Thus, the total heat absorbed by the ice is

Q₂ = Q_2a + Q_2b + Q_2c

Q₂ = 2,612.5 J + 83,300 J + 1046.5 T_f J

Again, I have dropped the C^o in the last term, requiring that we measure T_f in units of C^o.

Now we can apply the Work-Energy Theorem or say that energy is conserved. This means

Q₁ + Q₂ = 0

[2093 T_f J - 94,185 J] + [2,612.5 J + 83,300 J + 1046.5 T_f J] = 0

[2093 T_f - 94,185 ] + [2,612.5 + 83,300 + 1046.5 T_f ] = 0

3139.5 T_f - 8,272.5 = 0

3139.5 T_f = 8,272.5

T_f = 8,272.5 /3139.5

T_f = 2.6

Of course, this means

T_f = 2.6^oC

(c) 2000, Doug Davis; all rights reserved.