Flow through the converging nozzle in Fig. P4.2 can be approximated by the one-dimensional velocity distribution P4.2 2x v = 0 w=0 L u = Vol 1 + (a) Find a general expression for the fluid acceleration in the nozzle. (b) For the specific case Vo = 10 ft/s and L = 6 in, compute the acceleration, in g's, at the entrance and at the exit. %3D Vo u = = 3Vo x = L P4.2 x = 0

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Flow through the converging nozzle in Fig. P4.2
can be approximated by the one-dimensional velocity
Р4.2
distribution
2x
U = Vol 1 +
V - 0 wz
(a) Find a general expression for the fluid acceleration in
the nozzle. (b) For the specific case Vo
in, compute the acceleration, in g's, at the entrance and at
10 ft/s and L = 6
the exit.
Vo
u = 3Vo
* = L
Р4.2
x = 0
Transcribed Image Text:Flow through the converging nozzle in Fig. P4.2 can be approximated by the one-dimensional velocity Р4.2 distribution 2x U = Vol 1 + V - 0 wz (a) Find a general expression for the fluid acceleration in the nozzle. (b) For the specific case Vo in, compute the acceleration, in g's, at the entrance and at 10 ft/s and L = 6 the exit. Vo u = 3Vo * = L Р4.2 x = 0
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