As shown in the figure below, you have a system including a Polyethylene vessel with mass Myessel = 0.229 kg. The vessel containswater with mass Mwater = 0.399 kg. Both the vessel and water are initially at a temperature of 54.6 degrees Celsius. You add steaminto the system. The steam has an initial temperature of 167.4 degrees Celsius and a mass of Msteam = 10.9564 kg. The system willreach equilibrium with all the water having vaporized at some final temperature above 100 degrees Celsius.SteamwaterPressure VesselFind the system final temperature, Tfinal =Material c (J/(kg K))Aluminum8971820BerylliumCadmiumIronLead129Polyethylene 2303Steel466Uranium116231412All of the water turns to steam.The system reaches equilibrium at T > 100° CWater c (J/(kg K))ice209041862010watersteamdegrees CelsiusWaterL (J/kg)334000FusionVaporization 2230000

Solution: Given Data: Mvessel=0.229 kgMwater=0.399…

Answered: As shown in the figure below, you have…

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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Q/ A radiator of steam heating system has a volume of 0.2 m'. When the radiator is filled with saturated steam at a pressure of 1.5 bar all valves are closed. After a period of time the pressure inside the radiator becomes 1.4 bar due to heat lost to surrounding air. Calculate: 1- mass of steam within the radiator. 2- mass and volume of liquid water at the final state. 3- mass and volume of vapor at the final state. From steam tables, at 1.5 bar, Since all valves are closed the specific volume of steam remains constant as heat is lost. At 1.4 bar, Since v2 < v g at 1.4 bar the steam becomes wet.
Six grams of helium(4.0026 g/mol) undergoes an Isothermal process at 127 Celsius, beginning at 6 atm. Their container was found to be 0.04 meters under cube after the expansion. Assuming that helium unit is an ideal gas, calculate the amount of keep that flowed into or out of the helium during the process.
N = 0 An insulated tank of volume 10+(10+N)/25 m and with a valve was filled with perfect tri- atomic gas at pressure 10 bar, where N is equal to the last two digitals in your student's ID number. Initially the valve was closed. A paddle wheel was mounted inside the tank and was run by 20 kW engine. The paddle wheel was turn on and at the same time the exit valve was opened. The gas temperature was constant though the whole process (due to very slow flow) and equal to 300 K. Calculate the time needed to decrease the pressure in the tank to 5 bar.

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