Mechanics of Solids - IITM 1.1 Planar Rigid Body

Mechanics of Solids - IITM 1.2 Degrees of freedom

Mechanics of Solids - IITM 1.3 Equations of Equilibrium

Mechanics of Solids - IITM 1.5 Planar rigid body Statics Example 1

Mechanics of Solids - IITM 1.6 Rigid Body Statics Example 2

Mechanics of Solids - IITM 2.1 Structural Systems with rigid

Mechanics of Solids - IITM 2.2 Types of 1-D Structural Elements

Mechanics of Solids - IITM 2.3 Trusses - Axial members

Mechanics of Solids - IITM 2.4 Analysis of Truss Systems

Mechanics of Solids - IITM 2.5 Stability of Structural systems

Mechanics of Solids - IITM 2.6 Trusses - additional discussions.

Mechanics of Solids - IITM 2.7 Trusses - Method of Sections

Mechanics of Solids - IITM 2.8 Beams - example 1

Mechanics of Solids - IITM 2.9 Beams - BMD & SFD

Mechanics of Solids - IITM 2.10 Beams - loading, shear and BM

Mechanics of Solids - IITM 3.1 Virtual work method

Mechanics of Solids - IITM 3.2 Virtual displacements

Mechanics of Solids - IITM 3.3 Finding virtual displacements

Mechanics of Solids - IITM 3.4 Virtual Work Method - Example 1

Mechanics of Solids - IITM 3.5 Virtual Work Method - Example 2

Mechanics of Solids - IITM 4.1 Static Friction - an understanding

Mechanics of Solids - IITM 4.2 Belt Friction

Mechanics of Solids IITM 4.3 Friction : Solving Problems

Dynamics - IITM 5.1 general concepts - rigid bodies

Dynamics - IITM 5.2

Dynamics - IITM 5.3 motion of a point of the rigid body

Dynamics - IITM 5.4 motion of one point on a rigid body relative

Dynamics IITM 5.5 Understanding rotational motion r_dot = w x r

Dynamics IITM 5.6 Kinematics velocity and acceleration

Dynamics IITM 5.7 Understanding Coriolis Acceleration

Dynamics IITM 5.8 Kinematics - Solving problems

Dynamics IITM 6.1 Equations of motion of a rigid body

Dynamics IITM 6.2 Tips and Techniques 1/2

Dynamics IITM 6.3 Tips and Techniques 2/2

Dynamics IITM 6.4 Solving Problems 1/4

Dynamics IITM 6.5 Solving Problems 2/4

Dynamics IITM 6.6 Solving Problems 3/4

Dynamics IITM 6.7 Solving Problems 4/4

Tips and Tricks - Engineering Statics - solivng problems

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Lecture - 1 Fluid Mechanics

Lec - 2 Fundamental Concepts of fluid flow & fluid statics

Lecture - 3 Fluid Statics

Lecture - 4 Fluid statics

Lecture - 5 Fluid Statics

Lecture - 6 Kinematics of Fluid flow

Lecture - 7 Kinematics of Fluid flow

Lecture - 8 kinematics of Fluid flow

Lecture - 9 Kinematics of fluid flow

Lecture - 10 Kinematics of fluid flow

Lecture - 11 Kinematics & Dynamics of Fluid flow

Lecture - 12 Dynamics of Fluid Flow

Lecture -13 Dynamics of fluid flow

Lecture - 14 Dynamics of fluid flow

Lecture - 15 Dynamics of fluid flow

Lecture - 16 Dynamics of fluid flow

Lecture - 17 Laminar and Turbulent Flows

Lecture - 18 Laminar and Turbulent Flows

Lecture - 19 Laminar and Turbulent Flows

Lecture - 20 Laminar and Turbulent Flows

Lecture - 21 Laminar and Turbulent Flows

Lecture - 22 Laminar and Turbulent Flows

Lecture - 23 Dimensional Analysis

Lecture - 24 Dimensional Analysis

Lecture - 25 Dimensional Analysis

Lecture - 26 Navier-Stocks Equations and Applications

Lecture - 27 Navier stocks Equations and Applications

Lecture - 28 Navier Stocks Equations and Applications

Lecture - 29 Navier Stocks Equations and Applications

Lecture - 30 Boundary Layer Theory and Applications

Lecture - 31 Boundary Layer Theory and Applications

Lecture - 32 Boundary Layer Theory and Applications

Lecture - 33 Boundary Layer Theory and Applications

Lecture - 34 Boundary Layer Theory and Applications

Lecture - 37 Pipe Flow Systems

Lecture - 38 Pipe Flow Systems

Lecture - 39 Pipe Flow Systems

Lecture - 40 Pipe Flow Systems

Lecture - 41 Pipe Flow Systems

Lecture - 42 Pipe Flow Systems

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Lecture - 1 Instructional Objectives - I
 
Lecture - 2 Instructional Objectives - II
 
Lecture - 3 On Tool Geometry
 
Lecture - 4 Interrelations Among The Tool Angles
 
Lecture - 5 Mechanism of Chip Formation
 
Lecture - 6 Orthogonal and Oblique Cutting
 
Lecture - 7 Use of Chip Breaker in Machining
 
Lecture - 8 Machining Forces
 
Lecture - 9 Analytical and Experimental
 
Lecture - 10 Dynamometers for Measuring Cutting Forces
 
Lecture - 11 CTCEAC
 
Lecture - 12 CCTCFA
 
Lecture - 13 Concept of Machinability and its Improvement
 
Lecture - 14 Tool Life
 
Lecture - 15 Conventional Cutting Tool Maths
 
Lecture - 16 Advanced Tool Materials
 
Lecture - 17 Kinematics System of Centre Lathe
 
Lecture - 18 General Purpose Machine Tool Drills
 
Lecture - 19 Kinematic Systems and Operations
 
Lecture - 20 Configuration and Kinematic System
 
Lecture - 21 Mounting of jobs and Cutting Tools in Machine
 
Lecture - 22 Mounting of jobs and Cutting Tools in Machine
 
Lecture - 23a Construction,Operation and Tool Layout
 
Lecture - 23b Use of Attachments In Machine Tools
 
Lecture - 24 Forces Developing and Acting In Machine Tools
 
Lecture - 25 Estimation of Machining Time
 
Lecture - 26 Broaching - Principle Systems and Applications
 
Lecture - 27 Grinding Principle and Application
 
Lecture - 28 Abrasive Processes
 
Lecture - 29 Abrasive Processes (Grinding)
 
Lecture - 30 Superfinishing Processes
 
Lecture - 31 Production of Screw Threads
 
Lecture - 32 Gear Manufacturing
 
Lecture - 33 Jigs and Fixtures For Machine Shops
 
Lecture - 34 Design and Applications of Jigs and Fixtures
 
Lecture - 35 Non Traditional Manufacturing
 
Lecture - 36 Ultrasonic Machining
 
Lecture - 37 Water Jet Machining and Abrasive Water Jet
 
Lecture - 38 Electro - Chemical Machining
 
Lecture - 39 Electro - Discharge Machining
 
Lecture - 40 EBM and LBM

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Heat Transfer

Fluid Mechanics

Mechanical Engineering Design

Metal Cutting

Quantum Mechanics

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