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Introduction to Dynamics, Rectilinear Motion, Concept of Velocity and Accleration, Ex: Variable Accleration, Uniform Motion, Uniformly Acclerated Motion, Relative Motion, Ex: Stone thrown towards a moving Train, Dependant Motion, Ex: Dependant Motion, and related Topics.
Introduction to Dynamics, Rectilinear Motion, Concept of Velocity and Accleration, Ex: Variable Accleration, Uniform Motion, Uniformly Acclerated Motion, Relative Motion, Ex: Stone thrown towards a moving Train, Dependant Motion, Ex: Dependant Motion, and other topics.
Introduction to Engineering Mechanics, Concept of a Rigid Body, Basic Concepts, Describing a Force, Vector Representation of Force, Ex: Representing a Force in Vector form, Basic Principles, Newton's Law of Gravitation, Newton's First law of Motion, Newton's 2nd law of Motion, Newton's 3rd Law of Motion, Principle of Transmissibility, Parallelogram law of addition of forces, and other topics.
Concurrent and Parallel Force Systems, Addition of Forces, Triangle Law, Graphical Method, Using Trignometry, Alternative method using Trignometry, Variations of problems based on Resultant, Rectangular Components of a Force, Resultant using Rectangular components, Resultant of several forces, and other topics.
Moment of a Force, Ex: Calculating Moment, Varignon's Theorem, Ex: Using Varignon's Theorem, and other topics.
Basic Concepts in Curvilinear Motion, Rectangular Components (cartesian co-ordinates), Analysis of Projectiles, Ex: Projectile with a variable accleration, Ex: Projectile on Inclined Plane, and other topics.
Tangential and Normal Components (Path Co-ordinates), Ex: Motorist applying breaks on circular path, Radial and Transverse Components (Polar Co-ordinates), Ex: motion defined by functions in polar co-ordinates, Ex: Calculation of all components of accleration, and other topics.