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Fluid Kinematics
2
 Branch of fluid mechanics which deals with response of fluids 
in motion without considering forces and energies in them. 
 The study of kinematics is often referred to as the geometry of 
motion.
CAR surface pressure contours
and streamlines
Flow around cylindrical object
Page 2


Fluid Kinematics
2
 Branch of fluid mechanics which deals with response of fluids 
in motion without considering forces and energies in them. 
 The study of kinematics is often referred to as the geometry of 
motion.
CAR surface pressure contours
and streamlines
Flow around cylindrical object
Fluid Flow
3
 Rate of flow: Quantity of fluid passing through any 
section in a unit time.
 T ype:
 1. Volume flow rate: 
 2. Mass flow rate
 3. Weigh flow rate
time
fluid of Quantity 
flow of Rate =
time
fluid of volume
=
time
fluid of mass
=
time
fluid of weight 
=
Page 3


Fluid Kinematics
2
 Branch of fluid mechanics which deals with response of fluids 
in motion without considering forces and energies in them. 
 The study of kinematics is often referred to as the geometry of 
motion.
CAR surface pressure contours
and streamlines
Flow around cylindrical object
Fluid Flow
3
 Rate of flow: Quantity of fluid passing through any 
section in a unit time.
 T ype:
 1. Volume flow rate: 
 2. Mass flow rate
 3. Weigh flow rate
time
fluid of Quantity 
flow of Rate =
time
fluid of volume
=
time
fluid of mass
=
time
fluid of weight 
=
Fluid Flow
4
 Let’s consider a pipe in which a fluid is flowing with mean velocity, V.
 Let, in unit time, t, volume of fluid (AL) passes through section X-X, 
 1. Volume flow rate: 
 2. Mass flow rate
 3. Weigh flow rate
V
L
A
Longitudinal Section Cross Section
t
AL
Q = =
time
fluid of volume
( )
t
AL
M
?
= =
time
fluid of mass
( ) ( )
t
AL
t
AL g
G
? ?
= = =
time
fluid of weight 
Units
X
X
Page 4


Fluid Kinematics
2
 Branch of fluid mechanics which deals with response of fluids 
in motion without considering forces and energies in them. 
 The study of kinematics is often referred to as the geometry of 
motion.
CAR surface pressure contours
and streamlines
Flow around cylindrical object
Fluid Flow
3
 Rate of flow: Quantity of fluid passing through any 
section in a unit time.
 T ype:
 1. Volume flow rate: 
 2. Mass flow rate
 3. Weigh flow rate
time
fluid of Quantity 
flow of Rate =
time
fluid of volume
=
time
fluid of mass
=
time
fluid of weight 
=
Fluid Flow
4
 Let’s consider a pipe in which a fluid is flowing with mean velocity, V.
 Let, in unit time, t, volume of fluid (AL) passes through section X-X, 
 1. Volume flow rate: 
 2. Mass flow rate
 3. Weigh flow rate
V
L
A
Longitudinal Section Cross Section
t
AL
Q = =
time
fluid of volume
( )
t
AL
M
?
= =
time
fluid of mass
( ) ( )
t
AL
t
AL g
G
? ?
= = =
time
fluid of weight 
Units
X
X
Types of Flow
5
 Depending upon fluid properties
 Ideal and Real flow
 Incompressible and compressible
 Depending upon properties of flow
 Laminar and turbulent flows
 Steady and unsteady flow
 Uniform and Non-uniform flow
Page 5


Fluid Kinematics
2
 Branch of fluid mechanics which deals with response of fluids 
in motion without considering forces and energies in them. 
 The study of kinematics is often referred to as the geometry of 
motion.
CAR surface pressure contours
and streamlines
Flow around cylindrical object
Fluid Flow
3
 Rate of flow: Quantity of fluid passing through any 
section in a unit time.
 T ype:
 1. Volume flow rate: 
 2. Mass flow rate
 3. Weigh flow rate
time
fluid of Quantity 
flow of Rate =
time
fluid of volume
=
time
fluid of mass
=
time
fluid of weight 
=
Fluid Flow
4
 Let’s consider a pipe in which a fluid is flowing with mean velocity, V.
 Let, in unit time, t, volume of fluid (AL) passes through section X-X, 
 1. Volume flow rate: 
 2. Mass flow rate
 3. Weigh flow rate
V
L
A
Longitudinal Section Cross Section
t
AL
Q = =
time
fluid of volume
( )
t
AL
M
?
= =
time
fluid of mass
( ) ( )
t
AL
t
AL g
G
? ?
= = =
time
fluid of weight 
Units
X
X
Types of Flow
5
 Depending upon fluid properties
 Ideal and Real flow
 Incompressible and compressible
 Depending upon properties of flow
 Laminar and turbulent flows
 Steady and unsteady flow
 Uniform and Non-uniform flow
Ideal and Real flow
6
 Real fluid flows implies friction effects. Ideal fluid flow is hypothetical; 
it assumes no friction. 
Velocity distribution of pipe flow

	Fluid Mechanics for Mechanical Engineering 56 videos\|104 docs\|75 tests

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FAQs on PPT: Fluid Kinematics - Fluid Mechanics for Mechanical Engineering

1. What is fluid kinematics?

Ans. Fluid kinematics is the study of fluid motion without considering the forces that cause the motion. It focuses on the analysis of fluid flow patterns, velocities, and accelerations.

2. What are the different types of fluid flow?

Ans. There are three types of fluid flow: steady flow, unsteady flow, and laminar flow. Steady flow is when the velocity of the fluid at a specific point remains constant over time. Unsteady flow is when the velocity changes with time. Laminar flow is characterized by smooth and orderly fluid motion with parallel streamlines.

3. How is fluid velocity measured in fluid kinematics?

Ans. Fluid velocity can be measured using various techniques. One common method is using a Pitot tube, which measures the total pressure of the fluid flow. By comparing the total pressure with the static pressure, the velocity can be determined using Bernoulli's equation.

4. What is the difference between streamline and pathline in fluid kinematics?

Ans. Streamline refers to an imaginary line that is tangent to the velocity vector at every point in a fluid flow. It represents the instantaneous direction of flow at a specific point. Pathline, on the other hand, is the actual path traced by a fluid particle as it moves through the flow. It gives the history of the motion of a specific fluid particle.

5. How does fluid kinematics relate to fluid dynamics?

Ans. Fluid kinematics forms the foundation for fluid dynamics. While fluid kinematics focuses on the study of fluid motion without considering forces, fluid dynamics analyzes the forces that affect fluid motion. Understanding fluid kinematics is essential for comprehending fluid dynamics and studying phenomena such as fluid flow rates, pressure distributions, and energy losses.

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