A nozzle is designed such that the velocity in the nozzle varies as u(x) = 1 uo 0.5x L where the velocity u, is the entrance velocity and L is the nozzle length. The entrance velocity is 10 m/s, and the length is 0.5 m. The velocity is uniform across each section. Find the acceleration at the station halfway through the nozzle (x/L = 0.5)

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Answered: A nozzle is designed such that the velocity in the nozzle varies as u(x) = 1 uo 0.5x L where the velocity u, is the entrance velocity and L is the nozzle…

Elements Of Electromagnetics

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ISBN: 9780190698614

Author: Sadiku, Matthew N. O.

Publisher: Oxford University Press

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10 m/s
u(x) =
A nozzle is designed such that the velocity in the nozzle varies as
1
uo
"1
0.5x
L
20 m/s
where the velocity u, is the entrance velocity and L is the nozzle length. The entrance
velocity is 10 m/s, and the length is 0.5 m. The velocity is uniform across each section.
Find the acceleration at the station halfway through the nozzle (x/L = 0.5)

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Can you please explain how to find the velocity using the methods described? And also why it's done that way? This is from Introduction to robotics mecahnics and controls. Please help ;( !

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