3. A circular cylinder of radius a is fitted with two pressure sensors to measure pressure at 0 = 180° and at 9 = 150°. The intent is to use this cylinder as a stream velocimeter, i.e. a device to determine the velocity of a stream by measuring the pressures at the two taps. The fluid is incompressible with a density of p. U Figure for Part (a) Figure for Part (b) 300 a) Using potential flow approximation, derive a formula for calculating U from the measured pressure difference at the two pressure taps. Note that for accurate measurement, the velocimeter must be a aligned to have one of the taps exactly facing the stream as shown in the figure. (Ans: /2|Aptaps|/p )

3. A circular cylinder of radius a is fitted with two pressure sensors to measure pressure at 0 = 180° and at 9 = 150°. The intent is to use this cylinder as a stream velocimeter, i.e. a device to determine the velocity of a stream by measuring the pressures at the two taps. The fluid is incompressible with a density of p. U Figure for Part (a) Figure for Part (b) 300 a) Using potential flow approximation, derive a formula for calculating U from the measured pressure difference at the two pressure taps. Note that for accurate measurement, the velocimeter must be a aligned to have one of the taps exactly facing the stream as shown in the figure. (Ans: /2|Aptaps|/p )

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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