QUESTION I (a) With the aid of a clearly labelled sketch, explain the important feature of the Moody chart KS (b) Water flow by gravity through a 30 cm tank and 32 cm long capillary tube of diameter 1.3 mm at a rate of 1.4X10 m/s as shown in figure 1 below. Sections 1 and 2 are at atmospheric pressure. Neglecting entrance effects, compute the viscosity of the liquid. Describe the flow hrough the capillary tube. I ft i ft d= 0.004 Q= 0.15 n/h Figure 1 (c) With the aid of a simple diagram, explain the difference between Total Energy Line and Hydraulic Grade Line mathematically.
QUESTION I (a) With the aid of a clearly labelled sketch, explain the important feature of the Moody chart KS (b) Water flow by gravity through a 30 cm tank and 32 cm long capillary tube of diameter 1.3 mm at a rate of 1.4X10 m/s as shown in figure 1 below. Sections 1 and 2 are at atmospheric pressure. Neglecting entrance effects, compute the viscosity of the liquid. Describe the flow hrough the capillary tube. I ft i ft d= 0.004 Q= 0.15 n/h Figure 1 (c) With the aid of a simple diagram, explain the difference between Total Energy Line and Hydraulic Grade Line mathematically.
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 I
(a) With the aid of a clearly labelled sketch, explain the important feature of the Moody chart
LKS
(b) Water flow by gravity through a 30 cm tank and 32 cm long capillary tube of diameter 1.3
mm at a rate of 1.4X10 m'/s as shown in figure 1 below. Sections 1 and 2 are at atmospheric
pressure. Neglecting entrance effects, compute the viscosity of the liquid. Describe the flow
through the capillary tube.
d = 0,004
Q = 0.15 ft/h
Figure 1
(c) With the aid of a simple diagram, explain the difference between Total Energy Line and
Hydraulic Grade Line mathematically.
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