Q1: Water is flowing from tank A to tank B as shown in the following figure. The flow is steady so that the water level in tank B does not change. Find h, in the figure. The density is constant. The flow is inviscid and irrotational. Hint: apply Bernoulli's equation between the free surface and the discharge for tanks A and B individually. Then, since the flow rate leaving tank A (and entering tank B) must equal the rate leaving tank B, these two Bernoulli's Equations can be substituted and solved for one unknown. 1 -10.0 cm d=0.01 m Tank A

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Q1: Water is flowing from tank A to tank B as shown in the following figure. The flow is steady so that
the water level in tank B does not change. Find h, in the figure. The density is constant. The flow is
inviscid and irrotational.
Hint: apply Bernoulli's equation between the free surface and the discharge for tanks A and B
individually. Then, since the flow rate leaving tank A (and entering tank B) must equal the rate leaving
tank B, these two Bernoulli's Equations can be substituted and solved for one unknown.
1
10.0 cm
= 0.01 m
Tank A
士
Tank B
d 0.02 m
Figure 1. Q1
Transcribed Image Text:Q1: Water is flowing from tank A to tank B as shown in the following figure. The flow is steady so that the water level in tank B does not change. Find h, in the figure. The density is constant. The flow is inviscid and irrotational. Hint: apply Bernoulli's equation between the free surface and the discharge for tanks A and B individually. Then, since the flow rate leaving tank A (and entering tank B) must equal the rate leaving tank B, these two Bernoulli's Equations can be substituted and solved for one unknown. 1 10.0 cm = 0.01 m Tank A 士 Tank B d 0.02 m Figure 1. Q1
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