4.4.12 Water flows from a nozzle with a speed of V = 10 m/s and is collected in a container that moves toward the nozzle with a speed of Vev = 2 m/s as shown in Fig. P4.4.12. The moving control surface consists of the inner surface of the container. The system consists of the water in the container at time t= 0 and the water between the nozzle and the tank in the constant diameter stream at t = 0. At time t= 0.1 s what volume of the system remains outside of the control volume? How much water has entered the control volume during this time

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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4.4.12 Water flows from a nozzle with a speed of V = 10 m/s and is
collected in a container that moves toward the nozzle with a speed
of Vey = 2 m/s as shown in Fig. P4.4.12. The moving control surface
consists of the inner surface of the container. The system consists of the
water in the container at time t = 0 and the water between the nozzle
and the tank in the constant diameter stream at t = 0. At time t = 0.1 s
what volume of the system remains outside of the control volume?
How much water has entered the control volume during this time
period? Repeat the problem for t = 0.3 s.
Stream diameter = 0.1 m
%3D
Nozzle
Container
at t = 0
Stream
V = 10 m/s
at t = 0
Vcv = 2 m/s
Moving
%D
3 m
control
volume
FIGURE P4.4.12
Transcribed Image Text:4.4.12 Water flows from a nozzle with a speed of V = 10 m/s and is collected in a container that moves toward the nozzle with a speed of Vey = 2 m/s as shown in Fig. P4.4.12. The moving control surface consists of the inner surface of the container. The system consists of the water in the container at time t = 0 and the water between the nozzle and the tank in the constant diameter stream at t = 0. At time t = 0.1 s what volume of the system remains outside of the control volume? How much water has entered the control volume during this time period? Repeat the problem for t = 0.3 s. Stream diameter = 0.1 m %3D Nozzle Container at t = 0 Stream V = 10 m/s at t = 0 Vcv = 2 m/s Moving %D 3 m control volume FIGURE P4.4.12
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