As shown in the figure below, you have a system including a Aluminum cup with mass Mcup = 0.255 kg. The cup contains water with mass Mwater = 0.333 kg. Both the cup and water are initially at a temperature of 23.4 degrees Celsius. You drop ice into the system. The ice has an initial temperature of -39.8 degrees Celsius and a mass of Mice = 1.0983 kg. The system will reach equilibrium with none the ice having melted, but some of the water having frozen at the final temperature of 0 degrees Celsius. None of the ice melts some of the water freezes onto the ice the system reaches equilibrium at T= 0 degrees C Find the mass of water frozen, mfrozen =
As shown in the figure below, you have a system including a Aluminum cup with mass Mcup = 0.255 kg. The cup contains water with mass Mwater = 0.333 kg. Both the cup and water are initially at a temperature of 23.4 degrees Celsius. You drop ice into the system. The ice has an initial temperature of -39.8 degrees Celsius and a mass of Mice = 1.0983 kg. The system will reach equilibrium with none the ice having melted, but some of the water having frozen at the final temperature of 0 degrees Celsius. None of the ice melts some of the water freezes onto the ice the system reaches equilibrium at T= 0 degrees C Find the mass of water frozen, mfrozen =
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Katz, Debora M.
Chapter20: Kinetic Theory Of Gases
Section: Chapter Questions
Problem 69PQ
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As shown in the figure below, you have a system including a Aluminum cup with mass Mcup = 0.255 kg. The cup contains water with mass Mwater = 0.333 kg. Both the cup and water are initially at a temperature of 23.4 degrees Celsius. You drop ice into the system. The ice has an initial temperature of -39.8 degrees Celsius and a mass of Mice = 1.0983 kg. The system will reach equilibrium with none the ice having melted, but some of the water having frozen at the final temperature of 0 degrees Celsius.
None of the ice melts
some of the water freezes onto the ice
the system reaches equilibrium at T= 0 degrees C
Find the mass of water frozen, mfrozen =
Material | c (J/(kg K)) |
---|---|
Aluminum | 897 |
Beryllium | 1820 |
Cadmium | 231 |
Iron | 412 |
Lead | 129 |
Polyethylene | 2303 |
Steel | 466 |
Uranium | 116 |
Water | c (J/(kg K)) |
---|---|
ice | 2090 |
water | 4186 |
steam | 2010 |
Water | L (J/kg) |
---|---|
Fusion | 334000 |
Vaporization | 2230000 |
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