Problem 3:Consider a source panel with endpoints at (x,y) = (2,1) feet and (x,y) = (6,3) ft. The source panel has aconstant strength q = 4 ft/s. Find the velocity vector (in the coordinate system shown) at point P1 (locatedat x = 5 ft, y = 0 ft) and point P2 (located at x 2 ft, y = 4 ft).у (fi)86.P22x (ft)46.8.4.

The panel method is an analysis technique for estimating the forces exerted on an object in a flow.…

Answered: Problem 3: Consider a source panel with…

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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Problem Consider a cylindrical pipe of length L and diameter D = 2R. The angle that the axis of the pipe forms with the vertical direction is a. Assume that when the fluid enters the pipe its velocity is uniform (i.e., it has the same value over the entire cross-section of the pipe) and equal to U in the axial direction. In the radial and angular directions, the velocity is zero. So, it is: 2 =0: v(r, 0, 2) = Ue, (1.1) Here v is the fluid velocity and e, is a vector of unit magnitude parallel to the coordinate axis z; furthermore, we have assumed that the pipe inlet is located at z = 0. Near the entrance of the pipe, the velocity profile varies in the axial direction. But after a certain entrance length, the profile becomes fully developed, no longer changing with z. The evolution of the velocity profile is sketched in Fig. 1, where, for clarity, the pipe inclination is not shown. The entrance length is denoted by L.. For z > L., the fluid velocity is no longer a function of the axial…
Find the location of the stagnation point for the flow due to a vortex +I at (2a, 0) and a vortex -25 at (-2a, 0).
1-7. A two-dimensional unsteady flow has the velocity components: u= X 1 + t V= y 1 + 21 Find the equation of the streamlines of this flow which pass through the point (xo. yo) at time = 0.

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