Given: 8 = 880 Kg/m³ m = 10 kg/s = 88.9mm 3.5x25.4= 88.9x10³m - 1 &in = 1.625in = 1.625x25.4 = 41.275mm= 41.275x15³m for d₁ = 3 — in = 3.5in = da From figure 2₁ = 55 ft 2₂=0 gage pressure 55 3.281 ! P₂ = Patm = 0 16.763m -
Given: 8 = 880 Kg/m³ m = 10 kg/s = 88.9mm 3.5x25.4= 88.9x10³m - 1 &in = 1.625in = 1.625x25.4 = 41.275mm= 41.275x15³m for d₁ = 3 — in = 3.5in = da From figure 2₁ = 55 ft 2₂=0 gage pressure 55 3.281 ! P₂ = Patm = 0 16.763m -
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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TRANSCRIBE THE FOLLOWING SOLUTION IN DIGITAL FORMAT
![→ The mass flow rate :
Y₁ =
=
m
९
Idi²
Sad ²
m = SA⋅V
10kg/s
880 K xx (88.9x10³)² m²
m3
V
10kgls
880 kg x X(41.275x10³) m²
X
m³
4
Apply Bernoulli equation (1 and 2):
= 880 x
=
0
1/2 + 1² +²₁= ² + 1² +
P₁
un
гд
3g
гд
3g
P₁ = 3 [ 12 (V₂² - V₁²) - 9x₁]
P₁ = = 114,449.778 N/m²
| P₁ = = 114,449.778 Pa
i
SA
= 1.83073m/s
= 8.49285 mls
x [2 (8.49285² 1.830+3²) - (9.81 X 16.763)
+½Ã°](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F3a4919ff-63b9-43a1-a2ae-d0410acb9578%2Ffd76ed71-a469-4676-a623-f57909d15750%2Fgwxucvf_processed.jpeg&w=3840&q=75)
Transcribed Image Text:→ The mass flow rate :
Y₁ =
=
m
९
Idi²
Sad ²
m = SA⋅V
10kg/s
880 K xx (88.9x10³)² m²
m3
V
10kgls
880 kg x X(41.275x10³) m²
X
m³
4
Apply Bernoulli equation (1 and 2):
= 880 x
=
0
1/2 + 1² +²₁= ² + 1² +
P₁
un
гд
3g
гд
3g
P₁ = 3 [ 12 (V₂² - V₁²) - 9x₁]
P₁ = = 114,449.778 N/m²
| P₁ = = 114,449.778 Pa
i
SA
= 1.83073m/s
= 8.49285 mls
x [2 (8.49285² 1.830+3²) - (9.81 X 16.763)
+½Ã°
Transcribed Image Text:Giveni = 880 Kg/m³
m = 10 kg/s
From figure :
for
d₁ = 3 — — in = 3.5in = 3.5x25.4 = 88.9mm
d₂ = 1 {√ in = 1.625in = 1.625x25.4 = 41.275mm= 41.275x16³m
2₁=55ft = 55 = 16.763m
3.281
2₂=0
gage pressure
=0
88.9x10³m
: P₂ = Patu:
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