Salt water is flowing from point A to B (as shown in Figure: Q 3(b)) with 0.10 m/s. The pipe has the diameter of 400 mm and length of 1.5 m with average roughness of 0.15 mm. Find the pressure at point A if the pressure at point B is atmospheric pressure of 101.3 kPa and the pipe is inclined 10° upward from point A to B. Assume real fluid flow. The kinematic viscosity is 0.00001 m2/s, and the density of salt water is X kg/m. Moody Diagram is given at the end. (Assume X to be 1000 + last 2 digit of your student ID) Flow Direction Atmospheric pressure Pressure ? PIPE 10° Read the question carefully for flow and pipe related parameters

Salt water is flowing from point A to B (as shown in Figure: Q 3(b)) with 0.10 m/s. The pipe has the diameter of 400 mm and length of 1.5 m with average roughness of 0.15 mm. Find the pressure at point A if the pressure at point B is atmospheric pressure of 101.3 kPa and the pipe is inclined 10° upward from point A to B. Assume real fluid flow. The kinematic viscosity is 0.00001 m2/s, and the density of salt water is X kg/m. Moody Diagram is given at the end. (Assume X to be 1000 + last 2 digit of your student ID) Flow Direction Atmospheric pressure Pressure ? PIPE 10° Read the question carefully for flow and pipe related parameters

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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LAST DIGIT OF ID NUMBER IS 9
use exact Number.
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question is on the figure
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Last three digit 923