Patm=101kPa; g=9.81m/s² A substance is contained in a piston cylinder assembly with properties as described by the attached saturation and superheated vapor tables. The piston has a mass of 50kg and face area of 49.5 square-centimeters. The assembly contains 5kg of a mystery substance and is stored outside. Overnight the temperature drops to 10°C, but the temperature rises during the afternoon. Mechanical stops prevent the piston from leaving the cylinder. Take the substance to be the system. Taking special care with units, what is the pressure of the system in bar for the configuration shown in the figure? mpiston=50kg; Apiston=49.5cm? What system phase(s) is(are) present if the temperature is 10°C? Mystery substance; During the day, the temperature rises to 20°C and there is still space to expand before the piston reaches the stops. What is the new system volume in m³? initial temperature is 10°C How much work is done by the system on the surroundings to expand from 10°C to 20°C? Enter a numerical value in k). What system phase(s) is(are) present if the temperature is 20°C?

Elements Of Electromagnetics
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Patm=101kPa; g=9.81m/s²
A substance is contained in a piston cylinder assembly with properties as described
by the attached saturation and superheated vapor tables. The piston has a mass of
50kg and face area of 49.5 square-centimeters. The assembly contains 5kg of a
mystery substance and is stored outside. Overnight the temperature drops to 10°C,
but the temperature rises during the afternoon. Mechanical stops prevent the piston
from leaving the cylinder. Take the substance to be the system.
Taking special care with units, what is the pressure of the system in bar for the
mpiston=50kg; Apiston=49.5cm?
configuration shown in the figure?
What system phase(s) is(are) present if the temperature is 10°C?
Mystery substance;
During the day, the temperature rises to 20°C and there is still space to expand
before the piston reaches the stops. What is the new system volume in m3?
initial temperature is 10°C
How much work is done by the system on the surroundings to expand from
10°C to 20°C? Enter a numerical value in k).
What system phase(s) is(are) present if the temperature is 20°C?
What amount of heat transfer occurred between the system and surroundings? Enter a numerical value in kj.
A fire breaks out near the assembly, and the temperature of the substance rises. The piston hits the stops when the volume reaches
1.5m3. The temperature continues to rise. By the time the tank is moved to a safe location, the pressure reaches 3bar and the
temperature is 212°C; the internal energy is 619 kJ/kg at this state.
How much work is done by the system during the fire? Enter a numerical value in k).
What amount of heat transfer occurred between the system and surroundings during the fire? Enter a numerical value in k).
Transcribed Image Text:Patm=101kPa; g=9.81m/s² A substance is contained in a piston cylinder assembly with properties as described by the attached saturation and superheated vapor tables. The piston has a mass of 50kg and face area of 49.5 square-centimeters. The assembly contains 5kg of a mystery substance and is stored outside. Overnight the temperature drops to 10°C, but the temperature rises during the afternoon. Mechanical stops prevent the piston from leaving the cylinder. Take the substance to be the system. Taking special care with units, what is the pressure of the system in bar for the mpiston=50kg; Apiston=49.5cm? configuration shown in the figure? What system phase(s) is(are) present if the temperature is 10°C? Mystery substance; During the day, the temperature rises to 20°C and there is still space to expand before the piston reaches the stops. What is the new system volume in m3? initial temperature is 10°C How much work is done by the system on the surroundings to expand from 10°C to 20°C? Enter a numerical value in k). What system phase(s) is(are) present if the temperature is 20°C? What amount of heat transfer occurred between the system and surroundings? Enter a numerical value in kj. A fire breaks out near the assembly, and the temperature of the substance rises. The piston hits the stops when the volume reaches 1.5m3. The temperature continues to rise. By the time the tank is moved to a safe location, the pressure reaches 3bar and the temperature is 212°C; the internal energy is 619 kJ/kg at this state. How much work is done by the system during the fire? Enter a numerical value in k). What amount of heat transfer occurred between the system and surroundings during the fire? Enter a numerical value in k).
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