A fluid is pumped at a rate of 0.00156 m /s through a 0.025-m-diameter pipe to fill a water tank as shown in Figure. What is the pressure drop between the inlet (section 1) and the outlet (section 2) accounting for all losses? The density of the fluid is (1.10x10^3) kg/m³ and the dynamic viscosity is 1.12 x 10- 3 Ns/m2. The following are also known KL. elbow = 1.5, KL. exit = 1 and %3D surface roughness, e = 0.001 mm. Also take gravity, g = 10 m/s?. The elbows are enlarged for ease of visualisation and the lengths shown are those of the pipes.

A fluid is pumped at a rate of 0.00156 m /s through a 0.025-m-diameter pipe to fill a water tank as shown in Figure. What is the pressure drop between the inlet (section 1) and the outlet (section 2) accounting for all losses? The density of the fluid is (1.10x10^3) kg/m³ and the dynamic viscosity is 1.12 x 10- 3 Ns/m2. The following are also known KL. elbow = 1.5, KL. exit = 1 and %3D surface roughness, e = 0.001 mm. Also take gravity, g = 10 m/s?. The elbows are enlarged for ease of visualisation and the lengths shown are those of the pipes.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Corrosion control methods

Corrosion may be defined as the method in which metals are attacked on their exteriors by gases existing in the atmosphere, converting them to their oxides, nitrides, sulfides, etc.

Question

:00
Time LeiL
HAM YAHIA ZARARIA ALY MOUSTAFA: Attempt 1
15 m
3
6.
6 m
6 m
Elbow
6 m
3 m
1
DELL

Time Left:1:26:15
HISHAM YAHIA ZAKARIA ALY MOUSTAFA: Attempt 1
15 m
A fluid is pumped at a rate of 0.00156 m /s through a 0.025-m-diameter pipe to fill a
water tank as shown in Figure. What is the pressure drop between the inlet (section
1) and the outlet (section 2) accounting for all losses?
The density of the fluid is (1.10x10^3) kg/m³ and the dynamic viscosity
is 1.12 x 10 - 3 Ns/m2. The following are also known KL. elbow = 1.5, KĻ, exit = 1 and
%3D
surface roughness, e =
0.001 mm. Also take gravity, g =
10 m/s2.
The elbows are enlarged for ease of visualisation and the lengths shown are those of
the pipes.
Answer should be in Pa with three significant figures.
Note: Your answer is assumed to be reduced to the highest power possible.
Your Answer:
DELL

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