This textbook has a
design that is just about perfectly backwards compared to most textbooks that
currently cover the subject. Topics covered includes: Elementary Mechanics,
Newton’s Laws, Systems of Particles, Momentum and Collisions, Torque and
Rotation in One Dimension, Applications of Mechanics, Fluids, Oscillations, Wave
Equation and Gravity.
This note describes the following topics: Motion in One Dimension,
Motion in Two Dimension, Forces, Energy, Momentum, Rotational Kinematics,
Rotational Dynamics, Oscillatory Motion, Waves.
This book covers the
following topics: Units, Motion In A Straight Line, Motion In A Plane, Force And
Motion, Conservation Of Energy, Systems Of Particles, Collisions, Rotation,
Rolling, Torque And Angular Momentum, Equilibrium And Elasticity, Gravity,
Oscillations, Temperature, Heat And The First Law Of Thermodynamics, Kinetic
Theory Of Gases, Entropy And The Second Law Of Thermodynamics.
This note explains the
following topics: Electric Charge, Force, Field, and Potential, DC Circuits,
Magnetism, Electromagnetic Induction and AC Circuits, Optics and Modern
Physics.
This
note explains the following topics: Systems Based on Numbers, Two
Dimensions and Beyond, Starting from Randomness, Mechanisms in Programs and
Nature, Implications for Everyday Systems, Fundamental Physics, Processes of
Perception and Analysis, The Notion of Computation, Principle of Computational
Equivalence.
This note covers the following topics: Newton's First Law, Centripetal Force Example, Newton's Second Law, Newton's
Second Law Illustration, Newton's Third Law and Newton's Third Law Example.
This guide illustrates all the
formulas related to Time and Distance, Laws of Motion, Work, Energy and Power,
Electricity, Properties of Matter, Gravitation and Circular Motion.