(1) Fill in the table with the missing properties for H20 T (°C) P (kPa) h (kJ/kg) State description 120 2500 6000 Saturated vapor 180 90 760 105 2683.4 4000 0.376 900 8000 550 655.77 80 30000 400 340
(1) Fill in the table with the missing properties for H20 T (°C) P (kPa) h (kJ/kg) State description 120 2500 6000 Saturated vapor 180 90 760 105 2683.4 4000 0.376 900 8000 550 655.77 80 30000 400 340
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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Question
![(1) Fill in the table with the missing properties for H2O
T (°C)
P (kPa)
h (kJ/kg)
State
X
description
120
2500
6000
Saturated vapor
180
90
760
105
2683.4
4000
0.376
900
8000
550
655.77
80
30000
400
340
(2) If the gage pressure in a liquid at a depth of 4 m is read to be 34 kPa, the
gage pressure in the same liquid at a depth of 8 m is:
(b) 42 kPa
(e) 272 kPa
(а) 24 kPa
(с) 68 kPa
(d) 112 kPa
(3) The piston diameters in the figure are D, = 12 cm and D2 = 5 cm. When
the pressure in chamber 2 is 1200 kPa and the pressure in chamber 3 is 900
kPa, the pressure in chamber lis:
D2
P2
P3
(а) 662 kPa
(d) 952 kPa
(b) 732 kPa
(e) 1102 kPa
(c) 872 kPa
P1](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fabb7c75e-40cc-40b3-89f4-34bec7edbaa1%2Fa69dac21-8c64-4a46-8c80-a034e470b3a2%2Fwnmmpe_processed.jpeg&w=3840&q=75)
Transcribed Image Text:(1) Fill in the table with the missing properties for H2O
T (°C)
P (kPa)
h (kJ/kg)
State
X
description
120
2500
6000
Saturated vapor
180
90
760
105
2683.4
4000
0.376
900
8000
550
655.77
80
30000
400
340
(2) If the gage pressure in a liquid at a depth of 4 m is read to be 34 kPa, the
gage pressure in the same liquid at a depth of 8 m is:
(b) 42 kPa
(e) 272 kPa
(а) 24 kPa
(с) 68 kPa
(d) 112 kPa
(3) The piston diameters in the figure are D, = 12 cm and D2 = 5 cm. When
the pressure in chamber 2 is 1200 kPa and the pressure in chamber 3 is 900
kPa, the pressure in chamber lis:
D2
P2
P3
(а) 662 kPa
(d) 952 kPa
(b) 732 kPa
(e) 1102 kPa
(c) 872 kPa
P1
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