A system consisting of 1 lb of water undergoes a power cycle composed of the following processes: 2. Process 1-2: Isothermal expansion from a saturated liquid to a saturated vapor at p= 1000 lbf/in.- Process 2-3: Isochoric cooling to p3 = 100 lbf/in.? Process 3-4: Isobaric and isothermal compression Process 4-1: Isochoric heating Sketch the cycle on a T-v diagram, and label the states. Sketch the cycle on a p-v diagram, and label the states. 1 Complete the following chart for system properties at the various states: a. b. с. P (Ibf/in.?) x (quality) v (ftAb) State 1 3 4. The net work of a cycle is given by the integral of p dV over the entire cycle. Thi that the net work can be found by calculating the area enclosed by the cycle on a p-v Find the net work of this cycle in BTU by calculating the area enclosed by the cycle agram from part b (the values from part c might help). d.

Elements Of Electromagnetics
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2.
TA system consisting of 1 lb of water undergoes a power cycle composed of the following
processes:
Process 1-2: Isothermal expansion from a saturated liquid to a saturated vapor at p= 1000 lbf/in.²
Process 2-3: Isochoric cooling to p3 = 100 lbf/in.²
Process 3-4: Isobaric and isothermal compression
Process 4-1: Isochoric heating
| Sketch the cycle on a T-v diagram, and label the states.
|Sketch the cycle on a p-v diagram, and label the states.
I Complete the following chart for system properties at the various states:
a.
b.
с.
p (lbf/in.?)
x (quality)
v (ft'/lb)
State
1
3
4
The net work of a cycle is given by the integral of p dV over the entire cycle. This means
that the net work can be found by calculating the area enclosed by the cycle on a p-v diagram.
Find the net work of this cycle in BTU by calculating the area enclosed by the cycle on your
d.
p-v diagram from part b (the values from part c might help).
Transcribed Image Text:2. TA system consisting of 1 lb of water undergoes a power cycle composed of the following processes: Process 1-2: Isothermal expansion from a saturated liquid to a saturated vapor at p= 1000 lbf/in.² Process 2-3: Isochoric cooling to p3 = 100 lbf/in.² Process 3-4: Isobaric and isothermal compression Process 4-1: Isochoric heating | Sketch the cycle on a T-v diagram, and label the states. |Sketch the cycle on a p-v diagram, and label the states. I Complete the following chart for system properties at the various states: a. b. с. p (lbf/in.?) x (quality) v (ft'/lb) State 1 3 4 The net work of a cycle is given by the integral of p dV over the entire cycle. This means that the net work can be found by calculating the area enclosed by the cycle on a p-v diagram. Find the net work of this cycle in BTU by calculating the area enclosed by the cycle on your d. p-v diagram from part b (the values from part c might help).
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