what will be the pressure gradient (kpa/m) at L=D30 cm through the nozzle? At L=0, the liquid flows inside the nozzle has a specific gravity S-1.2, at L=0, the velocity is 2 m/s while at L=70 cm, the velocity is 6 m/s. Assume steady and inviscid flow. The velocity varies linearly with distance through the .nozzle

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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what will be the pressure gradient (kpa/m) at L=D30
cm through the nozzle? At L=0, the liquid flows
inside the nozzle has a specific gravity S=1.2, at L=0,
the velocity is 2 m/s while at L=D70 cm, the velocity is
6 m/s. Assume steady and inviscid flow. The
velocity varies linearly with distance through the
.nozzle
L
Transcribed Image Text:what will be the pressure gradient (kpa/m) at L=D30 cm through the nozzle? At L=0, the liquid flows inside the nozzle has a specific gravity S=1.2, at L=0, the velocity is 2 m/s while at L=D70 cm, the velocity is 6 m/s. Assume steady and inviscid flow. The velocity varies linearly with distance through the .nozzle L
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