A 2.00 kg block of ice at -10.0 °C is placed in a large bucket of pure liquid water at 0.00 °C. When the system reaches equilibrium, there is still some liquid water left in the bucket at 0.00 °C. (Hint: At the instant the ice reaches 0°C it will be at thermal equilibrium and thus will immediately stop accepting heat) cm,ice = 2090 J/kg·K, cm, water = 4186 J/kg·K, Lf, water = 3.34 x 105 J/kg a) Sketch two separate temperature vs. energy added diagrams (just a sketch, no numbers necessary), one for the ice and one for the water. On each, draw and label two dots: one corresponding to the initial state and one corresponding to the final state b) For each substance (ice and water), determine from your diagrams if they undergo a temperature change, phase change, or both. c) Find the total mass of ice in the system when it reaches equilibrium
A 2.00 kg block of ice at -10.0 °C is placed in a large bucket of pure liquid water at 0.00 °C. When the system reaches equilibrium, there is still some liquid water left in the bucket at 0.00 °C. (Hint: At the instant the ice reaches 0°C it will be at thermal equilibrium and thus will immediately stop accepting heat)
cm,ice = 2090 J/kg·K, cm, water = 4186 J/kg·K, Lf, water = 3.34 x 105 J/kg
a) Sketch two separate temperature vs. energy added diagrams (just a sketch, no numbers necessary), one for the ice and one for the water. On each, draw and label two dots: one corresponding to the initial state and one corresponding to the final state
b) For each substance (ice and water), determine from your diagrams if they undergo a temperature change, phase change, or both.
c) Find the total mass of ice in the system when it reaches equilibrium
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