1.1 - Physics Today1.2 - Physics in the Pre-Modern Era1.2.1 - Early Thought1.2.2 - Ancient Indian Philosophy1.2.3 - Philosophy of the Ancient Greeks1.2.4 - Astronomy in the Ancient Times1.2.5 - Some Aspects of the Methodology of Ancient Philosophers1.2.6 - Zeno's Paradox1.2.7 - The Middle Ages and the Islamic Contribution1.3 - The Sixteenth and Seventeenth Centuries: Renaissance in Science and the Scientific Revolution1.3.1 - The Copernican Revolution1.3.2 - Explaining Astronomical Observations: Planetary Orbits1.3.3 - Galileo Galilei1.3.4 - The Method of Science1.3.5 - Isaac Newton and his Contemporaries1.4 - Post-Newtonian Classical Physics up to the Nineteenth Century1.4.1 - Heat1.4.2 - Optics1.4.3 - Electromagnetism1.4.4 - Atomic Structure1.4.5 - Mechanics1.5 - The Wave–Particle Seesaw of Light1.5.1 - Black-Body Radiation1.5.2 - Further Evidence for the Particle Model of Light1.6 - From Classical to Quantum Mechanics1.6.1 - The Bohr Atom1.7 - Development of Quantum Mechanics1.7.1 - Bose and his Statistics1.7.2 - Pauli's Exclusion Principle1.7.3 - Uncertainly Principle1.7.4 - Relativistic Quantum Mechanics1.8 - Some Other Major Contributions in the Twentieth Century1.8.1 - Astronomy1.8.2 - Sub-atomic Physics1.8.3 - Solid-State Physics and Electronics1.8.4 - Extraordinary Contributors1.9 - Indian Scientists1.9.1 - Jagdish Chandra Bose1.9.2 - Sir Chandrashekhara Venkata Raman1.9.3 - Meghnad Saha1.9.4 - Satyendra Nath Bose1.9.5 - Subrahmanyan Chandrashekhar1.10 - Philosophical Aspects1.10.1 - Universal Law of Gravitation1.10.2 - Coulomb's Law1.10.3 - Planck's Law1.10.4 - Bohr's Hydrogen Atom1.10.5 - Special Theory of Relativity1.10.6 - The Ether Hypothesis1.10.7 - The Quantitative Nature of Physics1.10.8 - On the Language of Physics1.10.9 - The Message