The pipe bend shown is in a horizontal plane. Oil with a specific gravity of 0.86 enters the reducing bend at section A with a velocity of 3.2 m/s and a pressure of 150 kPa. Determine(a) Thevelocity(m/s)atsectionB.(b) Thepressure(kPa)atpointB.(c) FP (x-direction),(d) FP (y-direction),(e) The magnitude and direction of FRX of the force required to hold the bend in place.(f) The magnitude and direction of FRY of the force required to hold the bend in place.Forces are to be expressed in Newtons. PROBLEM 3The pipe bend shown is in a horizontal plane. Oil with a specific gravity of 0.86 enters the reducing bendat section A with a velocity of 3.2 m/s and a pressure of 150 kPa. Determine(a) The velocity (m/s) at section B.(b) The pressure (kPa) at point B.(c) Fp (x-direction),(d) FP (y-direction),(e) The magnitude and direction of Frx of the force required to hold the bend in place.(f) The magnitude and direction of FRy of the force required to hold the bend in place.Forces are to be expressed in Newtons.d, - 100 mmda = 150 mm30

Name: The pipe bend shown is in a horizontal plane. Oil with a specific grav
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Description: The pipe bend shown is in a horizontal plane. Oil with a specific gravity of 0.86 enters the reducing bend at section A with a velocity of 3.2 m/s and a pressure of 150 kPa. Determine(a) Thevelocity(m/s)atsectionB.(b) Thepressure(kPa)atpointB.(c) FP

Given , Specific gravity of oil =0.86 Velocity at section A = 3.2 m/s Pressure at section A =…

Answered: PROBLEM 3 The pipe bend shown is in a…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Section: Chapter Questions

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The pipe bend shown is in a horizontal plane. Oil with a specific gravity of 0.86 enters the reducing bend at section A with a velocity of 3.2 m/s and a pressure of 150 kPa. Determine
(a) Thevelocity(m/s)atsectionB.
(b) Thepressure(kPa)atpointB.
(c) FP (x-direction),
(d) FP (y-direction),
(e) The magnitude and direction of FRX of the force required to hold the bend in place.
(f) The magnitude and direction of FRY of the force required to hold the bend in place.
Forces are to be expressed in Newtons.

PROBLEM 3
The pipe bend shown is in a horizontal plane. Oil with a specific gravity of 0.86 enters the reducing bend
at section A with a velocity of 3.2 m/s and a pressure of 150 kPa. Determine
(a) The velocity (m/s) at section B.
(b) The pressure (kPa) at point B.
(c) Fp (x-direction),
(d) FP (y-direction),
(e) The magnitude and direction of Frx of the force required to hold the bend in place.
(f) The magnitude and direction of FRy of the force required to hold the bend in place.
Forces are to be expressed in Newtons.
d, - 100 mm
da = 150 mm
30

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