Explore Exams
Login Signup
Sign in Open App
Mechanical Engineering Exam  >  Mechanical Engineering Test  >  Fluid Mechanics  >  Test: Turbulent Flow - 1 - Mechanical Engineering MCQ

Turbulent Flow - 1 - Free MCQ Practice Test with solutions, GATE ME Fluid


MCQ Practice Test & Solutions: Test: Turbulent Flow - 1 (10 Questions)

You can prepare effectively for Mechanical Engineering Fluid Mechanics for Mechanical Engineering with this dedicated MCQ Practice Test (available with solutions) on the important topic of "Test: Turbulent Flow - 1". These 10 questions have been designed by the experts with the latest curriculum of Mechanical Engineering 2026, to help you master the concept.

Test Highlights:

  • - Format: Multiple Choice Questions (MCQ)
  • - Duration: 30 minutes
  • - Number of Questions: 10

Sign up on EduRev for free to attempt this test and track your preparation progress.

Test: Turbulent Flow - 1 - Question 1
Save

The velocity profile for turbulent boundary layer is

Test: Turbulent Flow - 1 - Question 2
Save

The thickness of turbulent boundary layer at a distance x from the leading edge over a flat plate varies as

Clear all your doubts with EduRev
Test: Turbulent Flow - 1 - Question 3
Save

The turbulent flow has

Test: Turbulent Flow - 1 - Question 4
Save

Turbulence in flow implies

Test: Turbulent Flow - 1 - Question 5
Save

The turbulent shear stress in the x-y plane is given by

Detailed Solution: Question 5

The turbulent shear stress in the x-y plane is characterized by the Reynolds stress, which is caused by the fluctuating velocities of the fluid in turbulent flow. This stress can be represented by the negative product of the fluid density and the correlation of the velocity fluctuations in the x and y directions. Therefore, the correct expression for turbulent shear stress in the x-y plane is given by:

Test: Turbulent Flow - 1 - Question 6
Save

The intensity of turbulence refers to

Test: Turbulent Flow - 1 - Question 7
Save

The Prandtl mixing length is

Detailed Solution: Question 7

For turbulent flow in circular pipes Prandtl assumed the mixing length / to be linear function of the distance y from the pipe wall i.e.,

Test: Turbulent Flow - 1 - Question 8
Save

Shear stress in a turbulent flow is due to

Detailed Solution: Question 8

Test: Turbulent Flow - 1 - Question 9
Save

Prandtl’s mixing length in turbulent flow signifies

Test: Turbulent Flow - 1 - Question 10
Save

The turbulent intensity  in a turbulent pipe flow is maximum at

56 videos|148 docs|75 tests
Join Course
Information about Test: Turbulent Flow - 1 Page
In this test you can find the Exam questions for Test: Turbulent Flow - 1 solved & explained in the simplest way possible. Besides giving Questions and answers for Test: Turbulent Flow - 1, EduRev gives you an ample number of Online tests for practice
Download as PDF

About this Mechanical Engineering Practice Test

This test contains 10 MCQs on Turbulent Flow - 1 with detailed solutions for each question. It is part of the Fluid Mechanics for Mechanical Engineering course on EduRev, designed to align with the current Mechanical Engineering 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.

Explore more Mechanical Engineering Study Resources

If you found this Turbulent Flow - 1 MCQ Test helpful, you can further enhance your Mechanical Engineering preparation with in-depth courses on EduRev, for all the subjects and topics available in Fluid Mechanics for Mechanical Engineering course. The course offers:
  • Video Lectures: covering all the topics of Fluid Mechanics for Mechanical Engineering
  • Notes for Revision: offering revision notes, important questions, summaries, flashcards, cheatsheets & more for Mechanical Engineering preparation
  • MCQ Test: variety of questions as per the pattern of Mechanical Engineering exam
Signup to see your scores go up
within 7 days!
Takes less than 10 seconds to signup