Water flows steadily from a tank T mounted on wheels as shown Nozzle area = 0.01 m² in the figure. After the water jet leaves the nozzle of the tank as a free jet into air, it falls and flows over cart C at 2 m - free jet T 4 m C rest, as shown. Assuming that the wheels are frictionless and V2 the fluid is inviscid, (a) determine the speed of the water V leaving the tank and the water speed V2 leaving the cart, Rope (b) determine the tension in the Rope.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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Water flows
steadily from a tank T
mounted on wheels as shown
Nozzle area = 0.01 m²
in the figure. After the water
jet leaves the nozzle of the
tank as a free jet into air, it
falls and flows over cart C at
2 m
- free jet
T.
4 m
C
rest, as shown. Assuming that
the wheels are frictionless and
V2
the fluid is inviscid,
(a) determine the speed of the
water V1 leaving the tank
and the water speed V2 leaving the cart,
Rope
(b) determine the tension in the Rope.
Transcribed Image Text:Water flows steadily from a tank T mounted on wheels as shown Nozzle area = 0.01 m² in the figure. After the water jet leaves the nozzle of the tank as a free jet into air, it falls and flows over cart C at 2 m - free jet T. 4 m C rest, as shown. Assuming that the wheels are frictionless and V2 the fluid is inviscid, (a) determine the speed of the water V1 leaving the tank and the water speed V2 leaving the cart, Rope (b) determine the tension in the Rope.
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