1) Given a vessel with V 0.4 m3 filled with m 2 kg %3D of H20 at P = 600 kPa, find • the volume and mass of liquid, and • the volume and mass of vapor.
1) Given a vessel with V 0.4 m3 filled with m 2 kg %3D of H20 at P = 600 kPa, find • the volume and mass of liquid, and • the volume and mass of vapor.
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%VT l. li. @
47 1:10
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IЕC2.pdf
12
MSc.Saif Saiwan
Chapter 2
BETC
Problem to solve by yourself
1) Given a vessel with V = 0.4 m3 filled with m = 2 kg
of H2O at P = 600 kPa, find
• the volume and mass of liquid, and
• the volume and mass of vapor.
2) Given water at T = 36.7 •C, with v = 10 m3/kg, find
the pressure and the quality if a two-phase mixture.
3) A closed, rigid container of volume 0.5 m3
is placed
on
a hot plate. Initially, the container holds
a
two-
phase mixture of saturated liquid water
and
saturated
water vapor at pi = 1 bar with a quality of 0.5. After
heating, the pressure in the container is Pi 1.5
bar,
determine (a) the temperature, in _C, at each state. (b)
the
of
vapor
present
at
each
state,
in kg.
mass
Assuming
the
volume
of
the
container
remains
constant.
13](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc35334b6-ac98-4b0d-9d0e-ec7de2c8bb7e%2F308937b9-1663-416f-975d-f909b5bbf4ec%2Fs846fs_processed.jpeg&w=3840&q=75)
Transcribed Image Text:1%VT l. li. @
47 1:10
KB/s
IЕC2.pdf
12
MSc.Saif Saiwan
Chapter 2
BETC
Problem to solve by yourself
1) Given a vessel with V = 0.4 m3 filled with m = 2 kg
of H2O at P = 600 kPa, find
• the volume and mass of liquid, and
• the volume and mass of vapor.
2) Given water at T = 36.7 •C, with v = 10 m3/kg, find
the pressure and the quality if a two-phase mixture.
3) A closed, rigid container of volume 0.5 m3
is placed
on
a hot plate. Initially, the container holds
a
two-
phase mixture of saturated liquid water
and
saturated
water vapor at pi = 1 bar with a quality of 0.5. After
heating, the pressure in the container is Pi 1.5
bar,
determine (a) the temperature, in _C, at each state. (b)
the
of
vapor
present
at
each
state,
in kg.
mass
Assuming
the
volume
of
the
container
remains
constant.
13
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