Chapter 1 Mechanics of a Particle 1.1 Some Fundamental Physical Quantities and Concepts 1.2 Newton's Laws of Motion 1.3 Momentum and the Law of Conservation of Momentum 1.4 Work and Energy Chapter 2 Mechanics of a Rigid Body 2.1 Rotation of a Rigid Body 2.2 Rotational Kinetic Energy and Moment of Inertia 2.3 Law of Rotation 2.4 Law of Conservation of Angular Momentum 2.5 Motion of a Gyroscope Chapter 3 Hydrodynamics ~ 3.1 Steady Flow of the Ideal Fluid 3.2 Bernoulli Equation 3.3 Applications of Bernoulli Equation 3.4 Flow of the Viscous Fluid 3.5 Poiseuille's Law and Stokes's Law Chapter 4 Molecular Physics 4.1 Pressure Formula of an Ideal Gas 4.2 Degrees of Freedom and the Theorem of Equipartition of Energy 4.3 Phenomena on Liquid Surfaces 4.4 Phenomenon of Adhesive Layer of Liquid Chapter 5 Thermodynamics 5.1 Several Fundamental Concepts of Thermodynamics 5.2 First Law of Thermodynamics 5.3 Applications of the First Law of Thermodynamics 5.4 Carnot Cycle and Efficiency of a Heat Engine 5.5 SecondLaw of Thermodynamics 5.6 Entropy and Principle of Entropy Increase Chapter 6 Electrostatic Field and Bioelectric Phenomena 6.1 Electric Field Intensity 6.2 Gauss's Law in the Electrostatic Field 6.3 Work Done by the Electric Field Force, Potential 6.4 Dielectric in Electrostatic Field 6.5 Bioelectrical Phenomena 6.6 Basic Principle of the Formation of ECG Waves Chapter 7 Direct Current Circuit 7.1 Current Density 7.2 Ohm's Law in a Section of Circuit with Sources 7.3 KirchhotFs Rules 7.4 Wheatstone's Bridge 7.5 Electrophoresis and Electrotherapy Chapter 8 Electromagnetic Phenomena 8.1 Magnetic Fields Induced by Electric Currents 8.2 Magnetic Force on Moving Charges 8.3 Magnetic Force on a Current Carrying Conductor 8.4 Law of Electromagnetic Induction 8.5 Magneto-biology and Magneto Therapy Chapter 9 Mechanical Oscillations and Mechanical Waves 9.1 Simple Harmonic Motion
9.2 Fundamental Theories of Wave Motions 9.3 Sound Waves 9.4 Ultrasonic Waves and Infrasound Waves Chapter 10 Wave Optics 10.1 Light 10.2 Interference of Light 10.3 Diffraction of Light 10.4 Polarization of Light 10.5 Absorption of Light Chapter 11 Quantum Physics 11.1 Thermal Radiation 11.2 Photoelectric Effect and Compton Effect 11.3 Wave Particle Duality 11.4 Uncertainty Principle 11.5 Hydrogen Spectral Series and Bohr's Theory 11.6 Four Quantum Numbers 11.7 Atomic Spectrum and Molecular Spectrum 11.8 Laser and Its Applications Chapter 12 Nuclear Physics 12.1 Composition of the Nucleus 12.2 Radioactivity and the Decay Law 12.3 Radiation Dose and Radiation Protection 12.4 Applications of Radioactivity in Medicine 12.5 Nuclear Magnetic Resonance Chapter 13 X-Rays 13.1 Properties of X-rays 13.2 X-ray Generator 13.3 Hardness and Intensity of X-rays 13.4 Diffraction of X-rays 13.5 X-ray Spectra 13.6 Attenuation of X-rays 13.7 Medical Applications of X-rays Appendixes Appendix 1 Conversions of Units Appendix 2 Names and Symbols of Multiples or Fractions Appendix 3 Greek Alphabet and the Pronunciations of Letters Appendix 4 Physical Constants in Common Use Appendix 5 Fundamental Concepts and Formulas of Calculus and Vector Algebra References
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