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A CFD model of steady two-dimensional incompressible flow has printed out the values of velocity potential o (x, y), in m2 /s, at each of the four corners of a small 0.8-m-by-0.8-m cell, as shown in the given figure. Use these numbers to estimate the resultant velocity in the center of the cell and its angle a with respect to the x axis. $ = 4.8338 m²1s 5.0610 V? AY 4.9038 m2/s 5.1236 Ax The resultant velocity is m/s. The resultant angle is

A CFD model of steady two-dimensional incompressible flow has printed out the values of velocity potential o (x, y), in m2 /s, at each of the four corners of a small 0.8-m-by-0.8-m cell, as shown in the given figure. Use these numbers to estimate the resultant velocity in the center of the cell and its angle a with respect to the x axis. $ = 4.8338 m²1s 5.0610 V? AY 4.9038 m2/s 5.1236 Ax The resultant velocity is m/s. The resultant angle is

Elements Of Electromagnetics
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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A CFD model of steady two-dimensional incompressible flow has printed out the values of velocity potential ¢ (x, y), in m2 /s, at each of the four corners of a small 0.8-m-by-0.8-m cell, as shown in the given figure. Use these numbers to estimate the resultant velocity in the center of the cell and its angle a with respect to the x axis. O = 4.8338 m²/s 5.0610 V? AY 4.9038 m/s 5.1236 The resultant velocity is m/s. The resultant angle is
Transcribed Image Text:A CFD model of steady two-dimensional incompressible flow has printed out the values of velocity potential ¢ (x, y), in m2 /s, at each of the four corners of a small 0.8-m-by-0.8-m cell, as shown in the given figure. Use these numbers to estimate the resultant velocity in the center of the cell and its angle a with respect to the x axis. O = 4.8338 m²/s 5.0610 V? AY 4.9038 m/s 5.1236 The resultant velocity is m/s. The resultant angle is
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