# Fluid Mechanics

Fluid mechanics is the branch of physics concerned with the mechanics of fluids (liquids & gases) and the forces on them. It has applications in a wide range of disciplines, including mechanical, civil, chemical and biomedical engineering, geophysics, astrophysics, and biology

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Fluid mechanics is the branch of physics concerned with the mechanics of fluids (liquids & gases) and the forces on them. It has applications in a wide range of disciplines, including mechanical, civil, chemical and biomedical engineering, geophysics, astrophysics, and biology. Fluid Mechanics can also be defined as the science which deals with the study of behaviour of fluids either at rest or in motion. It can be divided into fluid statics, the study of fluids at rest; and fluid dynamics, the study of the effect of forces on fluid motion. It is a branch of continuum mechanics, a subject which models matter without using the information that it is made out of atoms; that is, it models matter from a macroscopic viewpoint rather than from microscopic.

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Chapter 1

### Introduction & Fluid Properties

1.1 Introduction

1 videos

1.1.1_States of Matter / Distinction between Solid & Fluid 1.1.2_Internal Forces 1.1.3_Concept of Continuum

Chapter 2

### Fluid Statics

2.1 FUNDAMENTAL EQUATION OF FLUID STATICS

1 videos

2.1.1_Derivation of Fundamental Equation of Fluid Statics 2.1.2_Physics behind Fundamental Equation of Fluid Statics 2.1.3_Results from Fundamental Equation of Fluid Statics

Chapter 3

### Fluid Kinematics

3.1 FUNDAMENTALS

1 videos

3.1.1_Understanding Kinematics 3.1.2_Description of fluid flow_Lagrangian and Eulearian Approach 3.1.3_Variation of flow parameters with space and time_Steady v/s Unsteady Flows and Uniform v/s Non-uniform Flows 3.1.4_Flow Visualization_Concept of Streamlines, Pathlines and Streaklines

Chapter 4

### Integral form of Conservation Equations

4.1 FUNDAMENTALS OF REYNOLDS TRANSPORT THEOREM

1 videos

4.1.1_Need for Reynolds Transport Theorem 4.1.2_Intensive & Extensive Properties 4.1.3_Understanding Discharge and Mass Flow Rate

Chapter 5

### Dynamics of Inviscid Flows - Fundamentals & Applications

5.1 PHYSICS OF EULER'S EQUATION - I

1 videos

5.1.1_Fundamental Equation of Motion for Inviscid Flow in Cartesian Coordinates

Chapter 6

### Dynamics of Viscous Incompressible Flow

6.1 SOME EXACT SOLUTION OF NAVIER STOKES EQUATION - I

1 videos

6.1.1_Introduction to Navier Stokes Equation 6.1.2_Plane Poiseullie Flow or fully developed flow between two parallel plates

Chapter 7

### Boundary Layer Theory

7.1 BOUNDARY LAYER THEORY - I

1 videos

7.1.1_Introductory concepts 7.1.2_Boundary layer equations 7.1.3_Blausius Exact Solutions

Chapter 8

### Principle of Similarity and Dimensional Analysis

8.1 DIMENSIONAL ANALYSIS & PRINCIPLE OF SIMILARITIES - I

1 videos

8.1.1_Dimension Analysis-Importance of dimension analysis 8.1.2_Buckingham π theorem 8.1.3_Interpretation of results

Chapter 9

### Fluid Machines

10.1 FLUID MACHINES - I

1 videos

10.1.1_Reynolds Transport Theorem Applied to Law of Conservation of Angular Momentum 10.1.2_Lawn Sprinkler 10.1.3_Introduction and Classification of Fluid Machines 10.1.4_Different Components of Velocity

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