3. In the figure below, ax = 12.88 ft/s? and ay = 0. Find the imaginary free liquid surface and thepressure at B, C, D and E.Ans. B = 0.347psi, C = 0.069psi,D= 1.109 psi, E = 0.693 psiayB1ftA+3ftaxOIL - Sp. Gr. 0.8E3ft4. With the same figure as Problem 3, if ax = 8.05 ft/s? and ay = 16.1 ft/s?, find the imaginary free liquidsurface and the pressure at B, C, D and E.%3DAns. B = 0.347psi, C = 0.069psi,

Solution to first question, Q3 as per out company guidelines: Given ax = 12.88 m/s2 To find:…

Answered: In the figure below, ax = 12.88 ft/s?…

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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(b) Use Bernoulli's energy balance equation (E = PV + 0.5*mU²), assume volume flow rate remains constant along the pipe such that (Q=UA), and assume that pressure is balanced manometer to perform the following derivations: (i) (ii) (iii) 1- P2 in the pipe (substitute U2 in this step). an expression for P₁ an expression for P₁ P2 in the U-tube manometer. Set the expressions in parts (i) and (ii) equal to one another and derive the flow equation: U₁ = 2 (Pm -1) gh BA - 1
AT. 2] a water pump is to be used in a water supply system as shown in the figure. The pressure at point 1 is 70 kPaa and the pressure at point 2 is 101 kPaa. The velocity in the 60-mm pipe is 2 m/s. Find the pump power. Neglect friction, and assume no change of internal energy of the water and no heat transfer between point 1 and 2. Take the density of water at standard condition. 2 m2 10 m Pump
التاريخ 8-8 8 KM D-1Somm -> Q=366 4s D. =300mm Liquid of specfiec weight- 8KNl callwlate The manonmter Yeading when tigind is flóWing ? gilblay el.

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In the figure below, ax = 12.88 ft/s? and ay = 0. Find the imaginary free liquid surface and the pressure at B, C, D and E. Ans. B = 0.347psi, C = 0.069psi, D= 1.109 psi, E = 0.693 psi ay в 1ft A+ 3ft ах OIL - Sp. Gr. 0.8 E 3ft