导语

  

内容提要

  

    The main content contains the basic knowledge and fundamentaltheories of physics which are applied in medical colleges and universities. We insist toexpress laconically and refine the language, and highlight the characteristics of physicsin order to help the learners to study other relative academic courses based on solidfoundation of physics.
    This textbook is suitable for the undergraduate students who major in traditionalChinese medicine, Chinese materia medica, acupuncture, tuina, orthopaedics andtraumatology, clinical medicine, nursing, health care, rehabilitation, health management,agriculture, forestry and other related specialties in higher medical colleges anduniversities. It also can be used as a reference book for other health professionals andthe amateurs.
    《Physics》由Hou、Junling主编。

Chapter 1 Mechanics of Rigid Bodies and Elasticity of Objects
  1.1 Rotation of a Rigid Body
  1.2 Rotational Kinetic Energy and Moment of Inertia
  1.3 Law of Rotation
  1.4 Law of Conservation of Angular Momentum
  1.5 Motion of the Gyroscope
  1.6 Elasticity of Objects and Mechanical Properties of Bone Material
Chapter 2 Fundamental of Hydrodynamics
  2.1 Steady Flow of the Ideal Fluid
  2.2 Bernoulli Equation
  2.3 Applications of Bernoulli Equation
  2.4 Flow of the Viscous Fluid
  2.5 Poiseuille’s Law and Stokes’ Law
Chapter 3 Molecular Physics
  3.1 Pressure Formula of an Ideal Gas
  3.2 Degrees of Freedom and the Theorem of Equipartition of Energy
  3.3 Phenomena on Liquid Surfaces
  3.4 Phenomenon of Adhesive Layer of Liquid
Chapter 4 Thermodynamics
  4.1 Several Fundamental Concepts of Thermodynamics
  4.2 First Law of Thermodynamics
  4.3 Applications of the First Law of Thermodynamics
  4.4 Carnot Cycle and Efficiency of a Heat Engine
  4.5 Second Law Thermodynamics
  4.6 Entropy and Principle of Entropy Increase
Chapter 5 Electrostatic Field and Bioelectric Phenomena
  5.1 Electric Field Intensity
  5.2 Gauss’ Law in the Electrostatic Field
  5.3 Work Done by the Electric Field Force and Potential
  5.4 Dielectric in Electrostatic Field
  5.5 Bioelectrical Phenomena
  5.6 The Basic Principle of the Formation of ECG Waves
Chapter 6 Direct Current Circuit
  6.1 Current Density
  6.2 Ohm’s Law in a Section of Circuit with Sources
  6.3 Kirchhoff’s Rules
  6.4 Wheatstone’s Bridge
  6.5 Electrophoresis and Electrotherapy
Chapter 7 Electromagnetic Phenomena
  7.1 Magnetic Fields Produced by Electric Currents
  7.2 Magnetic Force on Moving Charges
  7.3 Magnetic Force on a Current Carrying Conductor
  7.4 Law of Electromagnetic Induction
  7.5 Magneto-biology and Magneto Therapy
Chapter 8 Mechanical Oscillations and Mechanical Waves
  8.1 Simple Harmonic Motion
  8.2 Fundamental Theories of Wave Motions
  8.3 Sound Waves
  8.4 Ultrasonic Waves and Infrasound Waves
Chapter 9 Wave Optics
  9.1 Light
  9.2 Interference of Light
  9.3 Diffraction of Light
  9.4 Polarization of Light
  9.5 Absorption of Light
Chapter 10 Geometrical Optics
  10.1 Refraction on a Spherical Surface
  10.2 Lenses
  10.3 Refraction of Human Eye
  10.4 Medical Applications of Geometrical Optics
Chapter 11 Fundamental of Quantum Mechanics
  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 X-Rays
  12.1 Properties of X-rays
  12.2 X-ray Generator
  12.3 Hardness and Intensity of X-rays
  12.4 Diffraction of X-rays
  12.5 X-ray Spectra
  12.6 Attenuation of X-rays
  12.7 Medical Applications of X-rays
Chapter 13 Fundamental of Nuclear Physics
  13.1 Composition of the Nucleus
  13.2 Radioactivity and the Decay Law
  13.3 Radiation Dose and Radiation Protection
  13.4 Applications of Radioactivity in Medicine
  13.5 Nuclear Magnetic Resonance