A tank whose volume is unknown is divided into two parts by a partition. One side of the tank contains 0.03 m³ of refrigerant-134a that is a saturated liquid at 0.9 MPa, while the other side is evacuated. The partition is now removed, and the refrigerant fills the entire tank. If the final state of the refrigerant is 20°C and 280 kPa, determine the volume of the tank.
A tank whose volume is unknown is divided into two parts by a partition. One side of the tank contains 0.03 m³ of refrigerant-134a that is a saturated liquid at 0.9 MPa, while the other side is evacuated. The partition is now removed, and the refrigerant fills the entire tank. If the final state of the refrigerant is 20°C and 280 kPa, determine the volume of the tank.
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:Problem 9
A tank whose volume is unknown is divided into two parts by a partition. One side of the tank contains
0.03 m³ of refrigerant-134a that is a saturated liquid at 0.9 MPa, while the other side is evacuated. The
partition is now removed, and the refrigerant fills the entire tank. If the final state of the refrigerant is 20°C
and 280 kPa, determine the volume of the tank.
Problem 10
Water initially at 300 kPa and 0.5 m³/kg is contained in a piston-cylinder device fitted with stops so that
the water supports the weight of the piston and the force of the atmosphere. The water is heated until it
reaches the saturated vapor state and the piston rests against the stops. With the piston against the stops, the
water is further heated until the pressure is 600 kPa. On the P-v and T-v diagrams sketch, with respect to the
saturation lines, the process curves passing through both the initial and final states of the water. Label the
states on the process as 1, 2, and 3. On both the P-v and T-v diagrams, sketch the isotherms passing through
the states and show their values, in °C, on the isotherms.
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