GATE ME 2006 | Laminar Flow Question 17 | Fluid Mechanics

Fluid Mechanics

Fluid Properties

Marks 1 Marks 2

Boundary Layer

Marks 1 Marks 2 Marks 5

Turbulent Flow

Marks 1 Marks 2 Marks 5

Fluid Dynamics

Marks 1 Marks 2 Marks 3 Marks 5

Laminar Flow

Marks 1 Marks 2 Marks 5

Fluid Kinematics

Marks 1 Marks 2

Fluid Statics

Marks 1 Marks 2 Marks 5

GATE ME 2006

MCQ (Single Correct Answer)

-0.6

The velocity profile in fully developed laminar flow in a pipe of diameter $$D$$ is given by $$u = {u_0}\left( {1 - 4{r^2}/{D^2}} \right),$$ where $$r$$ is the radial distance from the center. If the viscosity of the fluid is $$\mu ,$$ the pressure drop across a length $$L$$ of the pipe is

$${{\mu {u_0}L} \over {{D^2}}}$$

$${{4\mu {u_0}L} \over {{D^2}}}$$

$${{8\mu {u_0}L} \over {{D^2}}}$$

$${{16\mu {u_0}L} \over {{D^2}}}$$

GATE ME 1996

MCQ (Single Correct Answer)

-0.6

For laminar flow through a long pipe, the pressure drop per unit length increases.

in linear proportion to the cross-sectional area

in proportion to the diameter of the pipe

in inverse proportion to the cross-sectional area

in inverse proportion to the square of cross-sectional area

GATE ME 1988

MCQ (Single Correct Answer)

-0.6

The discharge in $${m^3}/s$$ for laminar flow through a pipe of diameter $$0.04$$ $$m$$ having a centre line velocity of $$1.5$$ $$m/s$$ is:

$$3\pi /50$$

$$3\pi /2500$$

$$3\pi /5000$$

$$3\pi /10000$$

Questions Asked from Marks 2

GATE ME 2017 Set 1 (1) GATE ME 2016 Set 3 (1) GATE ME 2015 Set 2 (2) GATE ME 2014 Set 1 (2) GATE ME 2014 Set 2 (2) GATE ME 2014 Set 3 (1) GATE ME 2006 (1) GATE ME 1996 (1) GATE ME 1988 (1)

GATE ME Subjects

Engineering Mechanics

Machine Design

Strength of Materials

Heat Transfer

Production Engineering

Industrial Engineering

Turbo Machinery

Theory of Machines

Engineering Mathematics

Fluid Mechanics

Thermodynamics

General Aptitude