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Flow Through Pipes - 1

10 Questions MCQ Test Mock Test Series for Civil Engineering (CE) GATE 2020 | Flow Through Pipes - 1

Description
This mock test of Flow Through Pipes - 1 for GATE helps you for every GATE entrance exam. This contains 10 Multiple Choice Questions for GATE Flow Through Pipes - 1 (mcq) to study with solutions a complete question bank. The solved questions answers in this Flow Through Pipes - 1 quiz give you a good mix of easy questions and tough questions. GATE students definitely take this Flow Through Pipes - 1 exercise for a better result in the exam. You can find other Flow Through Pipes - 1 extra questions, long questions & short questions for GATE on EduRev as well by searching above.
QUESTION: 1

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QUESTION: 2

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QUESTION: 3

The head loss in a sudden expansion from 5 cm diameter to 10 cm diameter pipe, in terms of velocity V1 in the 5 cm pipe

Solution:

QUESTION: 4

In a sudden contraction, the velocity head changes from 0.5 m to 1.25 m. The coefficient of contraction is 0.66. The head loss in this contraction is

Solution:

Loss of head-due to sudden contraction

QUESTION: 5

The minor loss due to sudden contraction is due to

Solution:

In sudden contraction, right after the sudden contraction  Ac , a vena contracta is formed; and then, right after, the flow widens again to fill the entire pipe. The region between the wall interior pipe and the vena contracta will be a region of separated flow.  The flow pattern after the vena contracta is similar to that after an abrupt enlargement and the loss is caused due to expansion of flow after sudden contraction.

QUESTION: 6

The loss at the exit of a submerged pipe in a reservoir is

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QUESTION: 7

A pipe has a well rounded entrance from a reservoir. If the head loss at the entrance is expressed a  the value of K would be about

Solution:

Head loss for well rounded entrance as compared to sharp cornered entrance is very small.

QUESTION: 8

In a 15 cm pipe line, the minor losses add upto   The length of a pipe of 15 cm diameter 2fif {f = 0.03) equivalent to this loss is

Solution:

For given condition,

QUESTION: 9

Three identical pipes of lenght L, diameter D and friction factor f, are connected in series between two reservoirs. The size of a pipe of length L and of the same friction factor f, equivalent to above pipeline, is

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QUESTION: 10

Two pipe systems in series are said to be equivalent when

Solution: