Topics
System of Coplanar Forces
- Resultant of concurrent forces
- Resultant of parallel forces
- non-concurrent Non-parallel system of forces
- Moment of force about a point
- Moment of force about Couples
- Varignon’s Theorem
- Force couple system
- Distributed Forces in plane
Center of Gravity and Centroid for Plane Laminas
- Centroid for Plane Laminas
Equilibrium of System of Coplanar Forces
- Condition of equilibrium for concurrent forces
- Condition of equilibrium for parallel forces
- Condition of Equilibrium for non-concurrent nonparallel general forces
- Condition of equilibrium for Couples
Types of Support
- Load Support
- Beams Support
- Determination of reactions at supports for various types of loads on beams
Analysis of Plane Trusses
- Analysis of Plane Trusses by Using Method of Joints
- Analysis of plane trusses By using Method of sections
Forces in Space
Resultant of Noncoplanar force systems
- Resultant of Concurrent Force System
- Parallel Force System
- Non-concurrent Non-parallel Force System
Equilibrium of Noncoplanar force systems
- Equilibrium of Concurrent force system
- Equilibrium of parallel force system
- Equilibrium of non-concurrent non-parallel force system
Friction
- Introduction to Laws of Friction
- Cone of Friction
- Equilibrium of Bodies on Inclined Plane
- Application to Problems Involving Wedges
- Ladders
Principle of Virtual Work
- Applications on Equilibrium Mechanisms
- Applications on pin jointed frames.
Kinematics of Particle
- Rectilinear Motion
- Velocity and Acceleration in Terms of Rectangular Co-ordinate System
- Motion Along Plane Curved Path
- Tangentialand Normal Component of Acceleration
- Motion Curves (a-t, v-t, s-t curves)
- Projectile Motion
Kinematics of Rigid Bodies
- Introduction to General Plane Motion
- Instantaneous Center of Rotation for the Velocity
- Velocity Diagrams for Bodies in Plane Motion.
Kinetics of a Particle
Force and Acceleration
- Introduction to Basic Concepts
- D’Alemberts Principle
- Equations of Dynamic Equilibrium
- Newton’s Second Law of Motion
Work and Energy
- Principle of Work and Energy
- Principle of Conservation of Energy
Impulse and Momentum
- Principle of Linear Impulse and Momentum
- Law of Conservation of Momentum
- Impact and Collision
- Introduction
Maharashtra State Board: Class 11
Introduction
Rectilinear motion refers to the movement of an object along a straight line. This is one of the simplest forms of motion studied in physics. In this type of motion, the object moves in only one dimension, typically along the x-axis. Understanding rectilinear motion helps us analyze the basic concepts of position, time, and movement. This forms the foundation for studying more complex types of motion in physics.
