[PDF] CE3301 Fluid Mechanics Books, Lecture Notes, Study Material

CE3301 Fluid Mechanics Notes

Download CE3301 Fluid Mechanics Books, Lecture Notes, Part-A 2 marks with answers, Part-B 16 marks Questions, PDF Books. In this Notes Very Useful for Second Year Third Semester Students.

“CE3301 Fluid Mechanics Books”
“CE3301 Fluid Mechanics Lecture Notes”
“CE3301 Fluid Mechanics Study Material”
“CE3301 Fluid Mechanics Notes”

Subject Info:

Semester Third Semester
Department Civil
Year Second Year
Regulation R 2021
Subject Code / Name CE3301 Fluid Mechanics
Content Local Authors Books, Lecture Notes

 

Syllabus:

CE3301 Fluid Mechanics

UNIT I FLUIDS PROPERTIES AND FLUID STATICS

Scope of fluid mechanics – Definitions of a fluid – Methods of analysis – Continuum hypothesis –System and Control volume approach – Reynold’s transportation theorem – Fluid properties – Fluid statics – Manometry – Forces on plane and curved surfaces – Buoyancy and floatation – Stability of floating bodies.

UNIT II BASIC CONCEPTS OF FLUID FLOW

Kinematics: Classification of flows – Streamline, streak-line and path-lines – Stream function and velocity potentials – Flow nets; Dynamics : Application of control volume to continuity, energy and momentum – Euler’s equation of motion along a stream line – Bernoulli’s equation – Applications to velocity and discharge measurements – Linear momentum equation – Application to Pipe bends – Moment of momentum equation.

UNIT III DIMENSIONAL ANALYSIS AND MODEL STUDIES

Fundamental dimensions – Dimensional homogeneity – Rayleigh’s method and Buckingham Pi theorem – Dimensionless parameters – Similitude and model studies – Distorted and undistorted models.

UNIT IV INCOMPRESSIBLE VISCOUS FLOW

Reynolds experiment – Laminar flow in pipes and between parallel plates – Development of laminar and turbulent flows in pipes – Darcy-Weisbach equation – Moody diagram – Major and minor losses of flow in pipes – Total energy line – Hydraulic grade line – Siphon – Pipes in series and parallel – Equivalent pipes.

UNIT V BOUNDARY LAYERS

Definition of boundary layers – Laminar and turbulent boundary layers – Displacement, momentum and energy thickness – Momentum integral equation – Applications – Separation of boundary layer – Drag and Lift forces.

CE3301 Fluid Mechanics Lecture Notes

CE3301 Unit 1 Topic wise Lecture Notes Collection
1.1 Fluid – Definition – DOWNLOAD
1.2 Systems of Units – DOWNLOAD
1.3-Fluid Properties – DOWNLOAD
1.4 Pressure Measurements by Manometers – DOWNLOAD
1.5 Buoyancy and Floatation – DOWNLOAD
CE3301 Unit 2 Topic wise Lecture Notes Collection
2.1 Fluid Kinematics – DOWNLOAD
2.2 Classification and Types of Flow – DOWNLOAD
2.3 Continuity Equation – DOWNLOAD
2.4 Linear momentum equation and its application to pipe bend – DOWNLOAD
CE3301 Unit 3 Topic wise Lecture Notes Collection
3.1 Dimensions Analysis Introduction – DOWNLOAD
3.2 Methods of Dimensions Analysis – DOWNLOAD
3.3 Dimensionless numbers – DOWNLOAD
3.4 Model Studies – DOWNLOAD
3.5 Similitudes and Model Laws – DOWNLOAD
CE3301 Unit 4 Topic wise Lecture Notes Collection
4.1 Reynold’s Experiment – DOWNLOAD
4.2 Hydraulic and Energy gradient – DOWNLOAD
4.3 Darcy – Weisbach equation – DOWNLOAD
4.4 Major and Minor Losses of Flow in Pipes – DOWNLOAD
4.5 Pipes in Series and in Parallel – DOWNLOAD
CE3301 Unit 5 Topic wise Lecture Notes Collection
5.1 Boundary Layer – DOWNLOAD
5.2 Boundary Layer Thickness – DOWNLOAD
5.3 Drag Force on Flat Plate due to Boundary layer – DOWNLOAD
5.4 Solved Problems Boundary Layer Thickness – DOWNLOAD
5.5 Boundary Layer Separation and Control – Drag on Flat Plate – DOWNLOAD

Leave a Comment