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Civil Engineering (CE) Exam  >  Civil Engineering (CE) Test  >  Fluid Mechanics for Civil Engineering  >  Test: Introduction, Euler’s & Bernoulli’s Equation Of Motion - Civil Engineering (CE) MCQ

Introduction, Euler’s & Bernoulli’s Equation Of Motion - Free MCQ Practice


MCQ Practice Test & Solutions: Test: Introduction, Euler’s & Bernoulli’s Equation Of Motion (10 Questions)

You can prepare effectively for Civil Engineering (CE) Fluid Mechanics for Civil Engineering with this dedicated MCQ Practice Test (available with solutions) on the important topic of "Test: Introduction, Euler’s & Bernoulli’s Equation Of Motion". These 10 questions have been designed by the experts with the latest curriculum of Civil Engineering (CE) 2026, to help you master the concept.

Test Highlights:

  • - Format: Multiple Choice Questions (MCQ)
  • - Duration: 20 minutes
  • - Number of Questions: 10

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Test: Introduction, Euler’s & Bernoulli’s Equation Of Motion - Question 1
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Which is the cheapest device for measuring flow / discharge rate.

Detailed Solution: Question 1

Explanation: Orificemeter is the cheapest available device for measuring flow/discharge rate.

Test: Introduction, Euler’s & Bernoulli’s Equation Of Motion - Question 2
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The principle of Orificemeter is same as that of Venturimeter.

Detailed Solution: Question 2

Explanation: The working principle for both Orificemeter and Venturimeter is same.

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Test: Introduction, Euler’s & Bernoulli’s Equation Of Motion - Question 3
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 What is the relationship between Orificemeter diameter and pipe diameter

Detailed Solution: Question 3

Orifice meter diameter is one-fourth times the pipe diameter

Test: Introduction, Euler’s & Bernoulli’s Equation Of Motion - Question 4
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The Orificemeter readings are more accurate than Venturimeter.

Detailed Solution: Question 4

Explanation: The Venturimeter readings are more accurate than Orificemeter.

Test: Introduction, Euler’s & Bernoulli’s Equation Of Motion - Question 5
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 The Orificemeter readings are more accurate than Pitot tube readings.

Detailed Solution: Question 5

Explanation: The Pitot tube readings are more accurate than Orificemeter.

Test: Introduction, Euler’s & Bernoulli’s Equation Of Motion - Question 6
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The Orificemeter has a smooth edge hole.

Detailed Solution: Question 6

Explanation: The Orificemeter has a rough edge hole.

Test: Introduction, Euler’s & Bernoulli’s Equation Of Motion - Question 7
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A nanometre is connected to a section which is at a distance of about 4 to 6 times the pipe diameter upstream from orifice plate.

Detailed Solution: Question 7

Explanation: A manometre is connected to a section which is at a distance of about 1.5 to 2.0 times the pipe diameter upstream from orifice plate.

Test: Introduction, Euler’s & Bernoulli’s Equation Of Motion - Question 8
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 Venturimeter is based on integral form of Euler’s equation.

Detailed Solution: Question 8

Explanation: Venturimeter is based on Bernoulli’s equation.

Test: Introduction, Euler’s & Bernoulli’s Equation Of Motion - Question 9
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 Orifice Meter can only be used for measuring rate of flow in open pipe like structure.

Detailed Solution: Question 9

Orifice Meter can only be used for measuring rate of flow in an enclosed pipe like structure. 
Depending on your system, use a bucket and a stopwatch to measure flow. Attach a tube or hose onto your spigot and time how long it takes to fill a 5 gallon bucket. If your spigot can fill a 5 gallon bucket in 47 seconds, you can figure out the flow rate with the following formula. Flow rate = volume / time.

Test: Introduction, Euler’s & Bernoulli’s Equation Of Motion - Question 10
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Orifice meter consists of a flat rectangular plate.

Detailed Solution: Question 10

Explanation: Orifice meter consists of a flat circular plate.

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About this Civil Engineering (CE) Practice Test

This test contains 10 MCQs on Introduction, Euler’s & Bernoulli’s Equation Of Motion with detailed solutions for each question. It is part of the Fluid Mechanics for Civil Engineering course on EduRev, designed to align with the current Civil Engineering (CE) syllabus. Each solution explains not just the correct answer but also gives you an understanding of the topic — not just to attempt the question but also help you prepare for the exam with practice.

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