A glass jar containing water is placed in the freezer. Once the water has frozen, the jar is 86.7 % full of ice, and its lid is tightly shut. Then the jar is taken out of the freezer at 0.00 °C and left until it is at the same temperature as the surroundings (22.1 °C). What is the pressure inside the jar? Disregard the thermal expansion of the glass jar and the liquid water. i Pa Hint Consider what happens to the ice when it melts and the air as it is warmed up. Assistance Used
A glass jar containing water is placed in the freezer. Once the water has frozen, the jar is 86.7 % full of ice, and its lid is tightly shut. Then the jar is taken out of the freezer at 0.00 °C and left until it is at the same temperature as the surroundings (22.1 °C). What is the pressure inside the jar? Disregard the thermal expansion of the glass jar and the liquid water. i Pa Hint Consider what happens to the ice when it melts and the air as it is warmed up. Assistance Used
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:14.2 The Ideal Gas Law
A glass jar containing water is placed in the freezer. Once the water has frozen, the jar is 86.7 % full of ice, and its lid is tightly shut.
Then the jar is taken out of the freezer at 0.00 °C and left until it is at the same temperature as the surroundings (22.1 °C). What is the
pressure inside the jar? Disregard the thermal expansion of the glass jar and the liquid water. i
Pa
Hint
Consider what happens to the ice when it melts and the air as it is warmed up.
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