#### Topics

##### Units and Measurements

##### Mathematical Methods

##### Motion in a Plane

##### Laws of Motion

- Introduction to Laws of Motion
- Aristotle’s Fallacy
- Newton’s Laws of Motion
- Inertial and Non-inertial Frames of Reference
- Types of Forces
- Work Energy Theorem
- Principle of Conservation of Linear Momentum
- Collisions
- Impulse of a Force
- Rotational Analogue of a Force - Moment of a Force Or Torque
- Couple and Its Torque
- Mechanical Equilibrium
- Centre of Mass
- Centre of Gravity

##### Gravitation

- Introduction to Gravitation
- Kepler’s Laws
- Newton’s Universal Law of Gravitation
- Measurement of the Gravitational Constant (G)
- Acceleration Due to Gravity (Earth’s Gravitational Acceleration)
- Variation in the Acceleration Due to Gravity with Altitude, Depth, Latitude and Shape
- Gravitational Potential and Potential Energy
- Earth Satellites

##### Mechanical Properties of Solids

##### Thermal Properties of Matter

##### Sound

##### Optics

##### Electrostatics

##### Electric Current Through Conductors

##### Magnetism

##### Electromagnetic Waves and Communication System

##### Semiconductors

#### description

- Elastic and inelastic collisions
- Perfectly Inelastic Collision
- Coefficient of Restitution e

- One dimensional or head-on collision
- Coefficient of restitution during a head-on, elastic collision

- Expressions for final velocities after a head-on, elastic collision
- Loss in the kinetic energy during a perfectly inelastic head-on collision
- Collision in two dimensions, i.e., a nonhead-on collision

If you would like to contribute notes or other learning material, please submit them using the button below.

Advertisement Remove all ads