A2V2. We find that the velocity comes out to be 31.41 m/s. The question can be answered without calculations if the concept is KNOWN. V2 NEITHER depends upon the LENGTH of the PIPE nor on the intermediate cross sections if losses are neglected.

"> A2V2. We find that the velocity comes out to be 31.41 m/s. The question can be answered without calculations if the concept is KNOWN. V2 NEITHER depends upon the LENGTH of the PIPE nor on the intermediate cross sections if losses are neglected.

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The below figure shows a pipe with a circular cross section of diameter 5 cm on the left end and a square cross section with diagonal 5 cm on the right end. Water enters the left end with a velocity 20 m/s and leaves the right end with a velocity V2. Find V2 (neglect losses in the pipe).

Fluid Mechanics Introduction Fluid Dynamics in Fluid Mechanics 7 months ago

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Apply continuity equation A1V1 = A2V2. We find that the velocity comes out to be 31.41 m/s. The question can be answered without calculations if the concept is KNOWN. V2 NEITHER depends upon the LENGTH of the PIPE nor on the intermediate cross sections if losses are neglected.

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Posted on 16 Dec 2024, this text provides information on Fluid Mechanics related to Introduction Fluid Dynamics in Fluid Mechanics. Please note that while accuracy is prioritized, the data presented might not be entirely correct or up-to-date. This information is offered for general knowledge and informational purposes only, and should not be considered as a substitute for professional advice.

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