IIT-JEE / NEET / 11th-12th: PHYSICS
Curriculum
- 6 Sections
- 146 Lessons
- 25 Weeks
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- Live Classes1
- CHAPTER 1: Physical World and Measurement33
- 2.1What is Physics
- 2.2Scope and Excitement of Physics
- 2.3Physics, Technology and Society
- 2.4Fundamental Forces in Nature
- 2.5Nature of Physical Laws
- 2.6Importance of Mathematics in Physics
- 2.7Basic Concepts of Algebra
- 2.8Graphs and Their Types
- 2.9Trigonometry
- 2.10Logarithm and Antilogarithm
- 2.11Functions and Limits
- 2.12Differentiation and Its Uses
- 2.13Integration and Its Types
- 2.14Need for Measurement
- 2.15Measuring Process and the Concept of Length, Mass and Time
- 2.16Fundamental (or Base), Supplementary and Derived Quantities, and Their Units
- 2.17Various System of Units
- 2.18Definition of SI Units for Fundamental and Supplementary Quantities
- 2.19Metric Prefix or Subsidiary Units
- 2.20Some Important Practical Units
- 2.21Order of Magnitude
- 2.22Measurement of Length
- 2.23Measurement of Mass
- 2.24Measurement of Time
- 2.25Dimensions of a Physical Quantity
- 2.26Dimensional Formulae and Dimensional Equations
- 2.27Dimensional Analysis and Its Applications
- 2.28Errors of Measurement
- 2.29Accuracy and Precision
- 2.30Absolute Error, Mean Absolute Error and Relative Error
- 2.31Propagation or Combination of Errors
- 2.32Significant Figures
- 2.33Permissible Errors and Uncertainty in the Results of Arithmetic Calculations
- CHAPTER 2: Kinematics37
- 3.1Definition and Classification of Mechanics
- 3.2Concept of Rest and Motion
- 3.3Types of Motion in a Body
- 3.4Frame of Reference
- 3.5Motion in One, Two and Three Dimension
- 3.6Motion in Straight Line
- 3.7Physical Quantities with Magnitude and Direction
- 3.8Path Length and Displacement
- 3.9Speed
- 3.10Velocity
- 3.11Uniform Motion in Straight Line
- 3.12Relative Velocity in One-Dimensional Motion
- 3.13Acceleration
- 3.14Uniformly Accelerated Motion
- 3.15Motion of an Object Under Free Fall
- 3.16Reaction-Time vs Hang-Time
- 3.17Classification of Vectors
- 3.18Important Terms in Vector Algebra
- 3.19Position and Displacement Vectors
- 3.20Multiplication of Vectors by a Real Number or a Scaler Quantity
- 3.21Resultant Vector
- 3.22Addition of Vectors
- 3.23Subtraction of Vectors
- 3.24Equilibrant Vector
- 3.25Lami’s Theorem: Condition for Zero Resultant Vector
- 3.26Relative Velocity in a Plane
- 3.27Zero Vector or Null Vector
- 3.28Resolution of a Vector in a Plane
- 3.29Rectangular Components of a Vector
- 3.30Position and Displacement Vectors in Space
- 3.31Matrix Representation of Vectors
- 3.32Scalar (Dot) and Vector (Cross) Products of Vectors
- 3.33Motion in a Plane
- 3.34Motion with Uniform Velocity in a Plane
- 3.35Uniformly Accelerated Motion in a Plane
- 3.36Projectile Motion
- 3.37Uniform Circular Motion
- CHAPTER 3: Laws of Motion31
- 4.1Intuitive Concept of Force
- 4.2Aristotle’s Fallacy
- 4.3The Law of Inertia
- 4.4Linear Momentum
- 4.5Newton’s First Law of Motion
- 4.6Newton’s Second Law of Motion
- 4.7Connected Motion
- 4.8Impulse
- 4.9Newton’s Third Law of Motion
- 4.10Horse and Cart Problem
- 4.11Correlation Between Newton’s Laws of Motion
- 4.12Lift or Elevator Problem: Apparent Weight of a Man
- 4.13Principle of Conservation of Linear Momentum
- 4.14System with Variable Mass: A Rocket
- 4.15Equilibrium of Concurrent Forces
- 4.16Basic Concept of Friction
- 4.17Static, Limiting and Kinetic Friction
- 4.18Laws of Friction
- 4.19Coefficient of Friction
- 4.20Angle of Friction
- 4.21Angle of Repose or Angle of Sliding
- 4.22Body on an Inclined Plane
- 4.23Work Done in Moving a Body on a Rough Horizontal
- 4.24Friction is a Necessary Evil
- 4.25Methods of Changing Friction
- 4.26Dynamics of Uniform Circular Motion (Centripetal Force)
- 4.27Centrifugal Force
- 4.28Rounding a Level Curved Road
- 4.29Banking of Roads
- 4.30Bending of Cyclist
- 4.31Solving Problems in Mechanics (Free Body Diagram)
- CHAPTER 4: Work, Energy and Power15
- 5.1Introduction of Work, Energy and Power
- 5.2Work-Energy Theorem
- 5.3Work
- 5.4Energy
- 5.5Power
- 5.6Conservative and Non-Conservative Forces
- 5.7Kinetic Energy
- 5.8Potential Energy
- 5.9Mechanical Energy and Its Conservation
- 5.10Potential Energy of a Spring
- 5.11Motion in a Vertical Circle
- 5.12Definition and Types of Collisions
- 5.13Coefficient of Restitution or Resilience
- 5.14Elastic Collision in One and Two Dimension
- 5.15Inelastic Collision in One and Two Dimension
- CHAPTER 5: Motion of System of Particles and Rigid Body29
- 6.1Rigid Body and Its Motion
- 6.2Center of Mass
- 6.3Motion of Centre of Mass
- 6.4Linear Momentum of a System of Particles
- 6.5Angular Velocity
- 6.6Angular Acceleration
- 6.7Torque (Moment of Force)
- 6.8Angular Momentum
- 6.9Relationship Between Angular Momentum and Torque
- 6.10Torque and Angular Momentum of a System of Particles
- 6.11Equilibrium of Rigid Bodies
- 6.12Principle of Moments
- 6.13Gravity Center of an Object and Its Determination
- 6.14Equations of Rotational Motion
- 6.15Moment of Inertia (Rotational Inertia)
- 6.16Radius of Gyration
- 6.17Relation Between Moment of Inertia, Angular Momentum and Torque
- 6.18Principle of Conservation of Angular Momentum
- 6.19Theorems of Parallel Axis for Moment of Inertia
- 6.20Theorem of Perpendicular Axis for Moment of Inertia
- 6.21Moment of Inertia of a Thin Circular Ring
- 6.22Moment of Inertia of a Uniform Circular Disk
- 6.23Values of Moment of Inertia for Simple Geometrical Objects
- 6.24Dynamics of Rotational Motion About a Fixed Axis
- 6.25Angular Momentum and Torque in case of Rotation About Fixed Axis
- 6.26Rolling Motion and Its Kinetic Energy
- 6.27Motion of Cylinder Rolling without Slipping on an Inclined Plane
- 6.28Laws of Rotational Motion
- 6.29Comparison of Linear and Rotational Motions
Laws of Rotational Motion
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