Problem based on law of conservation of momentum, loss of kinematic energy and direct impact

Principles of Friction

14:00mins

Basics of Engineering Mechanics

12:44mins

Fundamentals of Engineering Mechanics

15:00mins

System of Forces

13:48mins

Two Dimensional Force System

12:02mins

Two Dimensional Force System Part 2

12:58mins

Course Overview of Engineering Mechanics

2:43mins

Two Dimensional Force System Part 3

14:41mins

Structure analysis of pin-jointed plane trusses /frames

14:57mins

Determination of support reaction in plane truss/frame

15:00mins

Determination of Axial forces in a plane truss/frame by analytical method

14:01mins

Vector algebra Part-1

14:42mins

Vector Algebra Part-2

12:33mins

Vector Algebra part-3

13:02mins

Vector Algebra Part-4, cross product of vectors

11:56mins

Vector Algebra Part-5

9:48mins

Vector Algebra Part-6

9:05mins

Vector Algebra Part-7

8:17mins

Virtual work

13:48mins

Centroid, centre of gravity and centre of mass

14:07mins

Centroid of standard figures from first principles

11:55mins

Centroid of composite sections

10:25mins

Problem based on centroid part-1

13:38mins

Problem based on centroid part-2

11:27mins

Moment of Inertia part-1

14:52mins

Moment of Inertia part-2

15:00mins

Moment of Inertia part-3

13:16mins

Moment of Inertia part-4

12:18mins

Problem based on moment of Inertia part-4

11:57mins

Problem based on moment of Inertia part-5

10:49mins

Centre of gravity of rod and uniform circular cone

11:56mins

Centre of gravity of a hemisphere and centre of gravity of quarter circular wire

10:14mins

Problem based on centre of gravity

13:43mins

Mass moment of Inertia

10:19mins

Problem based on moment of Inertia of part 6

10:24mins

Problem based on free body diagram

14:01mins

Mass moment of Inertia of a solid plate and a solid cylinder

11:42mins

Problem based on free body diagram part-2

11:56mins

Problem based on free body diagram part-3

13:24mins

Introduction of kinematics

10:52mins

Equations of motion, rotation of rigid body and relation between linear motion and angular motion

12:51mins

Equations of rotation motion, problem based on rotational motion of a particle

12:57mins

Problem based on rectilinear motion

12:44mins

Types of supports, types of loads and problem on determination support reaction

14:49mins

Problem based on beam determination of support reactions

13:28mins

Projectile motion

12:17mins

Problem based on projectile motion

10:50mins

Motion of connected bodies

10:46mins

Problem based on motion of connected bodies

12:36mins

D, Alembert Principle and Dynamic equilibrium

13:44mins

Work energy

13:32mins

Problem based on work energy part-1

12:33mins

Problem based on work energy part-2

13:25mins

Problem based on work energy part-3

13:08mins

Problem based on D'Alembert's Principle part-1

13:55mins

Problem based on D'Alembert's Principle part-2

14:16mins

Impulse, principle of impulse momentum, coefficient of restitution

9:41mins

Types of impact

9:41mins

Problem based on work energy part-4

13:29mins

Problem based on law of conservation of momentum, loss of kinematic energy and direct impact

12:36mins

Problem based on on conservation of momentum and elastic collision

13:06mins

Problem based on conservation of momentum and elastic impact 1

12:20mins

Problem based on circular motion of a rigid bodies and rotation of rigid bodies

11:49mins

Shear force and bending moment, relationship between load intensity., shear force and bending moment

9:52mins

SFD and BMD for a few standard cases

10:25mins

SFD and BMD for a few standard cases part-1

10:46mins

Problem based on simply supported beam part-1

13:02mins

Problem based on simply supported beam part-2

13:55mins

Problem based on SFD and BMD for a simply supported beam part-3

9:55mins

Problem based on SFD and BMD for simple supported beam part-4

10:32mins

Problem based on SFD and BMD for a Over hanging beam

9:17mins

Problem based on SFD and BMD for a Over hanging beam part-1

12:26mins

Problem based on SFD and BMD for a Over hanging beam part-2

11:05mins

Problem based on SFD and BMD for a cantilever beam part-1

10:55mins

Problem based on SFD and BMD for a cantilever beam part-2

9:12mins