Engineering Mechanics


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About the course

Engineering Mechanics deals with the Basic Principles of Body in Motion. We will learn about different Forces and their Types, Laws of Motion, Friction & its Laws, Centroid & Moment of Inertia of Several Sections. We will also cover Kinematics and Kinetics of Rigid Body. So, this course is a basic introduction to Principles involved in Mechanical Engineering.

What will you learn?

The complete online syllabus of this course comprises 6 Learning Modules | 87 Topics of Learning | 4 Hours of Learning | 3 Assessments


  • Introduction to Engineering Mechanics
  • Two-Dimensional Force System
  • Two Dimensional Non-Current Force System
  • Centroid and Moment of Inertia

Topics of Learning

  • Introduction to Engineering Mechanics
  • Forces acting on Rigid Body
  • Laws of Mechanics
  • Parallelogram Law of Forces
  • Coplanar Concurrent Forces
  • Lami’s Theorem
  • General Method of Composition of Forces
  • Free Body Diagram
  • Equilibrium of bodies
  • Equilibrium of Connected Bodies
  • Newton’s Law of Motion
  • Newton’s Law of Gravitation
  • Law of Transmissibility of Forces
  • Coplanar Non-Concurrent Forces
  • Moment of Forces
  • Introduction to Friction
  • Frictional Force
  • Laws of Friction
  • Equilibrium of Bodies involving Dry-Friction
  • Ladder Problems
  • Belt Friction
  • Introduction to Trusses
  • Trusses
  • Method of Joint
  • Method of Section
  • Method of Section and Joint
  • Varignon’s Theorem
  • Couple
  • Resultant of Non-Concurrent Forces System
  • Angle of Friction
  • Angle of Repose
  • Cone of Friction
  • Perfect Frame
  • Deficient Frame
  • Redundant Frame
  • Assumption
  • Nature of Foces in Members
  • Introduction to Centroid & Moment of Inertia
  • Centroid
  • Use of Axis of Symmetry
  • Centroid: Triangle
  • Centroid: Sector of a Circle
  • Centroid: Parabolic Spandral
  • Centroid: Composite Bodies
  • Moment of Inertia
  • Perpendicular Axis Theorem
  • Parallel Axis Theorem
  • Radius of Gyration
  • Moment of Inertia of Composite Sections
  • Mass Moment of Inertia
  • Transfer Formula
  • Mass Moment of Inertia: Rod
  • Mass Moment of Inertia: Circular Ring
  • Mass Moment of Inertia: Solid Cone
  • Mass Moment of Inertia: Sphere
  • centroid: Composite Bodies
  • Kinematics
  • Acceleration due to Gravity
  • Motion with Varying Acceleration
  • Inclined Projection on Level Ground
  • Projection on Inclined Plane
  • Angular Motion
  • Relationship between Angular Motion & Linear Motion
  • Uniformly Accelerated Rotation
  • Kinematics of Rigid Body Rotation
  • Kinetic Energy of Rotating Bodies
  • Translational Motion
  • Rotational Motion
  • General Plane Motion
  • Introduction to Kinetics of Rigid Body
  • Kinetics
  • D’Alembert’s Principle
  • Concept of Work
  • Concept of Power
  • Work Energy Equation for Translation
  • Concept of Connected Bodies
  • Motion of Connected Bodies
  • Work done by Spring
  • Linear Impulse and Momentum
  • Co- Efficient of Restitution
  • Loss of Energy during Impact

For a quick review, please watch our videos here 👉🏻Online Video-Tutorials For Engineering Mechanics