As shown in the figure below, you have a system including a Polyethylene vessel with mass Mvessel = 0.229 kg. The vessel contains water with mass Mwater = 0.399 kg. Both the vessel and water are initially at a temperature of 54.6 degrees Celsius. You add steam into the system. The steam has an initial temperature of 167.4 degrees Celsius and a mass of Msteam = 10.9564 kg. The system will reach equilibrium with all the water having vaporized at some final temperature above 100 degrees Celsius.
As shown in the figure below, you have a system including a Polyethylene vessel with mass Mvessel = 0.229 kg. The vessel contains water with mass Mwater = 0.399 kg. Both the vessel and water are initially at a temperature of 54.6 degrees Celsius. You add steam into the system. The steam has an initial temperature of 167.4 degrees Celsius and a mass of Msteam = 10.9564 kg. The system will reach equilibrium with all the water having vaporized at some final temperature above 100 degrees Celsius.
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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![As shown in the figure below, you have a system including a Polyethylene vessel with mass Myessel = 0.229 kg. The vessel contains
water with mass Mwater = 0.399 kg. Both the vessel and water are initially at a temperature of 54.6 degrees Celsius. You add steam
into the system. The steam has an initial temperature of 167.4 degrees Celsius and a mass of Msteam = 10.9564 kg. The system will
reach equilibrium with all the water having vaporized at some final temperature above 100 degrees Celsius.
Steam
water
Pressure Vessel
Find the system final temperature, Tfinal =
Material c (J/(kg K))
Aluminum
897
1820
Beryllium
Cadmium
Iron
Lead
129
Polyethylene 2303
Steel
466
Uranium
116
231
412
All of the water turns to steam.
The system reaches equilibrium at T > 100° C
Water c (J/(kg K))
ice
2090
4186
2010
water
steam
degrees Celsius
Water
L (J/kg)
334000
Fusion
Vaporization 2230000](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F7e9880ca-6e01-4524-bdb0-6786235f8792%2F7b6e6673-06c9-42e4-9e62-453c9dd84f3b%2Fxswz5dj_processed.png&w=3840&q=75)
Transcribed Image Text:As shown in the figure below, you have a system including a Polyethylene vessel with mass Myessel = 0.229 kg. The vessel contains
water with mass Mwater = 0.399 kg. Both the vessel and water are initially at a temperature of 54.6 degrees Celsius. You add steam
into the system. The steam has an initial temperature of 167.4 degrees Celsius and a mass of Msteam = 10.9564 kg. The system will
reach equilibrium with all the water having vaporized at some final temperature above 100 degrees Celsius.
Steam
water
Pressure Vessel
Find the system final temperature, Tfinal =
Material c (J/(kg K))
Aluminum
897
1820
Beryllium
Cadmium
Iron
Lead
129
Polyethylene 2303
Steel
466
Uranium
116
231
412
All of the water turns to steam.
The system reaches equilibrium at T > 100° C
Water c (J/(kg K))
ice
2090
4186
2010
water
steam
degrees Celsius
Water
L (J/kg)
334000
Fusion
Vaporization 2230000
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