In chapter 12, we found the velocity profile for flow around a sphere using the creeping flow approximation. For the flow, derive the velocity profile for V, and Ve. Also, find the pressure distribution P. Finally, find the drag force acting on the sphere. (Hint: use the following integration ranges (1) 0<0<à and (2) 0<<2+). You can use all the assumptions that we made for this flow in the class.

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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In chapter 12, we found the velocity profile for flow around a sphere using the
creeping flow approximation. For the flow, derive the velocity profile for V, and Ve.
Also, find the pressure distribution P. Finally, find the drag force acting on the sphere.
(Hint: use the following integration ranges (1) 0<0<â and (2) 0<ô<2à). You can use
all the assumptions that we made for this flow in the class.
Transcribed Image Text:In chapter 12, we found the velocity profile for flow around a sphere using the creeping flow approximation. For the flow, derive the velocity profile for V, and Ve. Also, find the pressure distribution P. Finally, find the drag force acting on the sphere. (Hint: use the following integration ranges (1) 0<0<â and (2) 0<ô<2à). You can use all the assumptions that we made for this flow in the class.
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