In an insulated vessel, 457 grams of ice initially at

0\\\\deg C

are added to 500 grams of water initially\ at

15\\\\deg C

. Calculate the final equilibrium temperature of the system? If your answer comes out to\

0\\\\deg C

, then what mass of ice remains? For water the latent heat of fusion is

3.33\\\\times 10^(5)(J)/(k)g

and the\ specific heat capacity is

4186(J)/(kg\\\\deg C)

. The atmospheric pressure is

1atm

. Ignore any heat energy\ exchanges to the insulated vessel and the surroundings.

3. In an insulated vessel, 457 grams of ice initially at 0C are added to 500 grams of water initially at 15C. Calculate the final equilibrium temperature of the system? If your answer comes out to 0C, then what mass of ice remains? For water the latent heat of fusion is 3.33105J/kg and the specific heat capacity is 4186J/(kgC). The atmospheric pressure is 1atm. Ignore any heat energy exchanges to the insulated vessel and the surroundings