HomeInsertPage LayoutReferencesReviewViewSectionToolsA A O I.E A 2 -B AaBbCcDd AaBb AaBbCAew Roman - 12U- A- X X A- ab- A - A三。,田。NormalHeading 1 Heading 2(1)The velocity distribution V of a laminar incompressible fluid flow through a circular tubeas shownParabolic velocitydistribution v,(r)Uz, marLinear momentumflux distributionT=0Tr(r)(, -, )RTra. mais given as(Po - P)RV. =4µLSetValue: 2.5inRow: 8 Column: 1Words: 657M Spell Check omenaena 2012_13 Q X+Q Cl.HomeInsertPage LayoutReferencesReviewViewSectionToolsE E A B AaBbCCDd AaBb AABBCA三 ,,田.man 12A* A Q I-A- X X, A - ab - A ANormalHeading 1 Heading 2 His given as(Po - PL)R?V.%3!4µL(a) Derive the expressi on for the maximum velocity, V max.(b) Determine the average velocity (V-) if (V.) =E,max-(c) Determine the expression for the volumetric flow rate, Q.(d) Water at 290K flows through a horizontal tube of diameter 1.8 mm with a pressure dropof 800 N/m. The viscosity and density of water at 290 K are 1.080x103 N s/m2 and 103kg/m, respectively. Find t(e) Determine the flow regime of the water flow.massrate through theetValue: 2.5inRow: 8 Column: 1Words: 657M Spell CheckDELL

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is given as (Po - PL)R? V = 4µL (a) Derive the expression for the maximum velocity, Vz max. (b) Determine the average velocity (V_) if (V) = ÷V, E,max (c) Determine the expression for the volumetric flow rate, Q. (d) Water at 290 K flows through a horizontal tube of diameter 1.8 mm with a pressure drop of 800 N/m. The viscosity and density of water at 290 K are 1.080x10³ N s/m2 and 10 kg/m', respectively. Find the mass flow rate through the tube. (e) Detemine the flow regime of the water flow.

is given as (Po - PL)R? V = 4µL (a) Derive the expression for the maximum velocity, Vz max. (b) Determine the average velocity (V_) if (V) = ÷V, E,max (c) Determine the expression for the volumetric flow rate, Q. (d) Water at 290 K flows through a horizontal tube of diameter 1.8 mm with a pressure drop of 800 N/m. The viscosity and density of water at 290 K are 1.080x10³ N s/m2 and 10 kg/m', respectively. Find the mass flow rate through the tube. (e) Detemine the flow regime of the water flow.

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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