Chapter 1 | Physical World |
1.1 What is Physics? | |
1.4 Fundamental Forces in Nature | |
1.5 Nature of Physical Laws | |
Chapter 2 | Units and Measurements |
2.1 Introduction | |
2.2 The International System of Units | |
2.3 Measurement of length | |
2.4 Measurement of Mass | |
2.5 Measurement of Time | |
2.6 Accuracy, Precision of Instruments and Errors in Measurement | |
2.7 Significant Figures | |
2.8 Dimensions of Physical Quantities | |
2.9 Dimensional Formulae and Dimensional Equations | |
2.10 Dimensional Analysts and its Applications | |
Chapter 3 | Motion In a straight Line |
3.1 Introduction | |
3.2 Position, Path Length and Displacement | |
3.3 Average Velocity and Average Speed | |
3.4 Instantaneous Velocity and Speed | |
3.4 Acceleration | |
3.5 Kinetic Equations of Uniformly Accelerated Motion | |
3.7 Relative Velocity | |
Chapter 4 | Motion In a Plane |
4.1 Introduction | |
4.2 Scalars and Vectors | |
4.3 Multiplication of Vectors by Real Number | |
4.4 Addition and Subtraction of Vectors – Graphical Method | |
4.5 Resolution of Vectors | |
4.6 Vector Addition – Analytical Method | |
4.7 Motion In a Plane | |
4.8 Motion In a Plane with Constant Acceleration | |
4.9 Relative Velocity In Two Dimension | |
4.10 Projectile Motion | |
4.11 Uniform Circular Motion | |
Chapter 5 | Laws of Motion |
5.1 Introduction | |
5.2 Aristotle’s Fallacy | |
5.3 The Laws of Inertia | |
5.4 Newton’s First Law of Motion | |
5.5 Newton’s Second Law of motion | |
5.6 Newton’s Third Law of Motion | |
5.7 Conservation of Momentum | |
5.8 Equilibrium of a Particle | |
5.9 Common Forces In Mechanics | |
5.10 Circular Motion | |
5.11 Solving Problems In a Mechanics | |
Chapter 6 | Work, Energy and Power |
6.1 Introduction | |
6.2 Notions of Work and Kinetic Energy: The Work Energy Theorem | |
6.3 Work | |
6.4 Kinetic Energy | |
6.5 Work Done by a Variable Forces | |
6.6 The Work Energy Theorem For a Variable Forces | |
6.7 The Concept of Potential Energy | |
6.8 The Conservation of Potential Energy | |
6.9 The Potential Energy of a Spring | |
6.10 Various Forms of Energy: The Law of Conservation of Energy | |
6.11 Power | |
6.12 Collision | |
Chapter 7 | System of Particles and Rotational Motion |
7.1 Introduction | |
7.2 Centre of Mass | |
7.3 Motion of Centre of Mass | |
7.4 Linear Momentum of a System of Particles | |
7.5 Vector Product of Two Vectors | |
7.6 Angular Velocity and Its Relation with Linear Velocity | |
7.7 Torque and Angular Momentum | |
7.8 Equilibrium of a Rigid Body | |
7.9 Moment of Inertia | |
7.10 Theorems of Perpendicular and Parallel Axes | |
7.11 Kinematics of Rotational Motion About a Fixed Axis | |
7.12 Dynamics of Rotational Motion About a Fixed Axis | |
7.13 Angular Momentum In a Case of Rotations About a Fixed Axis | |
7.14 Rolling Motion | |
Chapter 8 | Gravitation |
8.1 Introduction | |
8.2 Kepler’s Laws | |
8.3 Universal Law of Gravitation | |
8.4 The Gravitational Constant | |
8.5 Acceleration Due to Gravity of The Earth | |
8.6 Acceleration due to Gravity Below and Above The Surface of The Earth | |
8.7 Gravitational Potential Energy | |
8.8 Escape Speed | |
8.9 Earth Satellite | |
8.10 Energy of an Orbiting Satellite | |
8.11 Geostationary and Polar Satellites | |
8.12 Weightlessness |
Thursday, December 2, 2010
Physics Part 1
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