Q1) A stationary nozzle produce a water jet and the jet strikes an axisymmetric plate as shown. The plate is attached to a piston-cylinder system. The discharge is 2.5 L/s and all other data are listed in the given table. a) Determine the pressure inside the nozzle p. b) Determine the pressure inside the cylinder at equilibrium p. c) Suggest a way for increasing the pressure inside the cylinder to the maximum amount without changing the nozzle properties. d) Calculate the maximum pressure inside the cylinder according to your suggestion in part (c). P=? di 75 mm d; 12 mm D 50 mm Flow 10° Fixed Platform

Q1) A stationary nozzle produce a water jet and the jet strikes an axisymmetric plate as shown. The plate is attached to a piston-cylinder system. The discharge is 2.5 L/s and all other data are listed in the given table. a) Determine the pressure inside the nozzle p. b) Determine the pressure inside the cylinder at equilibrium p. c) Suggest a way for increasing the pressure inside the cylinder to the maximum amount without changing the nozzle properties. d) Calculate the maximum pressure inside the cylinder according to your suggestion in part (c). P=? di 75 mm d; 12 mm D 50 mm Flow 10° Fixed Platform

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Description: Q1) A stationary nozzle produce a water jet and the jet strikes an axisymmetric plate as shown. The plate isattached to a piston-cylinder system. The discharge is 2.5 L/s and all other data are listed in the given table.a) Determine the pressure ins

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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Question

Q1) A stationary nozzle produce a water jet and the jet strikes an axisymmetric plate as shown. The plate is
attached to a piston-cylinder system. The discharge is 2.5 L/s and all other data are listed in the given table.
a) Determine the pressure inside the nozzle p.
b) Determine the pressure inside the cylinder at equilibrium p.
c) Suggest a way for increasing the pressure inside the cylinder to the maximum amount without changing
the nozzle properties.
d) Calculate the maximum pressure inside the cylinder according to your suggestion in part (c).
dz
P, =?
P=?
d¡ 75 mm
d2 12 mm
D 50 mm
0 10°
Flow
Fixed Platform

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