Syllabus
MODULEI
 Engineering Mechanics:Idealization of bodies, Concept of Rigid Bodies
 Concept of Rigid Bodies
 External Forces and Equilibrium
 Moment and Couples
 Laws of Mechanics
 DIFFRConcurrent forces in palne
 Concurrent Forces in Palne
 Free Body Diagram
 Equations of Equilibrium and Applications
 Concepts of Friction
 Dry Friction
 Laws of Friction and their Applications
 Rolling Frictions
MODULEII
 Centroid of Composite Figures
 Area Moment of Inertia
 Polar Moment of Inertia
 Parallel Axis Theorem
 Perpendicular Axis Theorem
 Principle Moment of Inertia
 Mass Moment of Inertia
 MOI of Cylinder about their symmetry
 MOI of Cone about their symmetry
 Beams: Different Supports and Load Conditions
 Shear Force and Bending Moment diagrams for Point Load
 >Uniformly Distributed Load
 Uniformly Varying Load
MODULEIII
 Analysis of plane truss:Engineering structures
 Perfect Truss
 Determination of Axial Force in members
 Method of Joint
 Method of Sections
 Plane motion of rigid bodies
 Velocity and Acceleration under Translation and Rotational motion
 Absolute motion
 Relative motion
 Kinematics of rigid bodies
 Forces, Mass and Acceleration
 Work,power and Energy
 Impulse and Momentum
 D'Alemberts Principle and Dynamic Equilibrium
Notes


