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University Physics(2nd Edition)

样章
作者:
DEXIN LU
定价:
80.00 元
版面字数:
0.00千字
开本:
16开
装帧形式:
精装
版次:
1
最新版次
印刷时间:
2025-01-22
ISBN:
978-7-04-011846-9
物料号:
11846-A0
出版时间:
2007-01-20
读者对象:
高等教育
暂无
  • 前辅文
  • Chapter 1 Introduction
    • 1.1 What is physics
    • 1.2 Physical quantities
    • 1.3 Approximation in physics
    • 1.4 Vectors
    • 1.5 Orthogonal coordinate systems
    • Problems
    • References
  • Part One Mechanics
    • Chapter 2 Kinematics
      • 2.1 Mechanical motion and moving object
      • 2.2 Translation
      • 2.3 Rotation
      • 2.4 Oscillation
      • 2.5 Phase space
      • 2.6 Galilean transformation
      • *2.7 Coriolis acceleration
      • Problems
      • References
    • Chapter 3 Particle Dynamics
      • 3.1 The law of inertia and inertial frame of reference
      • 3.2 Newton’s second and third laws
      • 3.3 Forces
      • 3.4 Noninertial frame and inertial force
      • 3.5 Momentum and angular momentum
      • 3.6 Mechanical work and energy
      • Problems
      • References
    • Chapter 4 Gravitation
      • 4.1 The law of gravitation
      • 4.2 Gravitational potential energy
      • 4.3 Gravitational mass, redshift, and collapse
      • 4.4 Kepler problem and scattering
      • 4.5 Gravitational field
      • Problems
      • References
    • Chapter 5 Dynamics of Many-Particle System
      • 5.1 The center of mass
      • 5.2 System of variable mass
      • 5.3 Collisions
      • 5.4 Fluid motion
      • 5.5 Symmetry and conservation laws
      • Problems
      • References
    • Chapter 6 Dynamics of a Rigid Body
      • 6.1 Rotational inertia
      • 6.2 The dynamics of rotation
      • 6.3 Precession of angular momentum
      • 6.4 Equilibrium of rigid bodies and stability
      • Problems
      • References
    • Chapter 7 Oscillations
      • 7.1 Simple harmonic motion
      • 7.2 Coupled oscillation
      • 7.3 Damped oscillation
      • *7.4 Nonlinear oscillation
      • 7.5 Forced oscillation under friction
      • Problems
      • References
    • Chapter 8 Waves
      • 8.1 Waves and their classification
      • 8.2 Wave equation
      • 8.3 Simple harmonic wave and their superposition
      • 8.4 Interference and diffraction
      • *8.5 Dispersion and wave packets
      • 8.6 The Doppler effect
      • *8.7 Solitary wave
      • Problems
      • References
    • Chapter 9 Relativistic Mechanics
      • 9.1 Galilean transformations
      • 9.2 The Lorentz transformations
      • *9.3 Spacetime diagram and twin paradox
      • 9.4 Relativistic kinematics
      • 9.5 Relativistic dynamics
      • Problems
      • References
  • Part Two Thermal Physics
    • Chapter 10 Temperature
      • 10.1 Equilibrium state
      • 10.2 Thermal equilibrium and temperature
      • 10.3 Empirical temperature scales
      • 10.4 The equation of state
      • Problems
      • References
    • Chapter 11 The First Law of Thermodynamics
      • 11.1 Work and internal energy
      • 11.2 Heat and the first law of thermodynamics
      • 11.3 Heat capacity and specific heat
      • 11.4 Free expansion and internal energy of gas
      • 11.5 Adiabatic equation
      • 11.6 The Carnot cycle
      • Problems
      • References
    • Chapter 12 The second Law of Thermodynamics
      • 12.1 The second law
      • 12.2 Carnot theorem and thermodynamic scale
      • 12.3 Entropy and entropy principle
      • 12.4 Thermodynamic potentials
      • *12.5 Relativistic thermodynamics
      • *12.6 Blackhole thermodynamics
      • Problems
      • References
    • Chapter 13 Microscopic Model of Ideal Gas
      • 13.1 Ideal gas
      • 13.2 Equilibrium distribution
      • 13.3 Equipartition theorem
      • 13.4 Effusion
      • 13.5 Transport phenomena
      • Problems
      • References
    • Chapter 14 Phase Transition
      • 14.1 Van der Waals equation
      • 14.2 Phase and phase diagram
      • 14.3 Clapeyron’s equation
      • 14.4 Higher order phase transition
      • *14.5 Concepts in modern theory of phase transition
      • Problems
      • References
  • Part Three Electromagnetism
    • Chapter 15 Electrostatic Field
      • 15.1 Electric charge and Coulomb’s law
      • 15.2 Electrostatic field
      • 15.3 Gauss’ law
      • 15.4 Electric potential
      • 15.5 Electric potential energy
      • Problems
      • References
    • Chapter 16 Conductor and Dielectrics
      • 16.1 Uniform conductor in an electrostatic field
      • 16.2 Capacitance
      • 16.3 Conductivity and Ohm’s law
      • 16.4 Dielectrics
      • 16.5 Electric vectors
      • Problems
      • References
    • Chapter 17 Magnetic Field
      • 17.1 Magnetic field
      • 17.2 Gauss’ law for magnetism and Ampére’s law
      • 17.3 Magnetic force
      • 17.4 The Hall effect
      • Problems
      • References
    • Chapter 18 Electromagnetic Induction
      • 18.1 Faraday’s law of induction
      • 18.2 Motional EMF
      • 18.3 Inductance
      • 18.4 Relativity of E and B
      • Problems
      • References
    • Chapter 19 Magnetic Properties of Matter
      • 19.1 Magnetic dipole of microscopic particles
      • 19.2 Magnetic vectors
      • 19.3 The magnetic properties of macroscopic objects
      • *19.4 The magnetism of the earth
      • Problems
      • References
    • Chapter 20 Maxwell’s Equations
      • 20.1 Quasi-equations and monopole
      • 20.2 Displacement current and induced magnetic field
      • *20.3 Differential form of Maxwell’s equations
      • 20.4 Energy flow and field momentum density
      • Problems
      • References
    • Chapter 21 Electromagnetic Waves
      • 21.1 Wave equations
      • 21.2 Travelling waves
      • 21.3 Radiation
      • 21.4 Crystal diffraction
      • 21.5 Standing wave and DOS
      • Problems
      • References
  • Part Four Fundamental Modern Physics
    • Chapter 22 Energy Quantization
      • 22.1 Blackbody radiation
      • 22.2 The photoelectric effect
      • 22.3 The Compton effect
      • 22.4 Line spectra the energy quantization in atoms
      • Problems
      • References
    • Chapter 23 Wave Nature of Matter
      • 23.1 Matter waves
      • 23.2 Davisson-Germer experiment
      • 23.3 Electron two-slit experiment
      • 23.4 Uncertainty relation
      • Problems
      • References
    • Chapter 24 Schrödinger Equation
      • 24.1 The wave function
      • 24.2 Schrödinger equation
      • 24.3 One dimensional potential well
      • 24.4 Potential barrier
      • 24.5 Simple harmonic oscillator
      • Problems
      • References
    • Chapter 25 Atoms
      • 25.1 The hydrogen atom
      • 25.2 Energy level and transition
      • 25.3 Probability density
      • 25.4 Orbital angular momentum and spin
      • 25.5 Many-electron atoms
      • 25.6 Lasers
      • 25.7 X rays
      • Problems
      • References
    • Chapter 26 Molecules and Clusters
      • 26.1 Atomic orbital
      • 26.2 Molecular orbital
      • 26.3 Ionic bonding
      • 26.4 Molecule vibration and rotation
      • 26.5 Biological macromolecule
      • 26.6 Clusters
      • Problems
      • References
    • Chapter 27 Fermi and Bose Statistics
      • 27.1 Fermions and Bosons
      • 27.2 Fermi-Dirac distribution
      • 27.3 Bose-Einstein distribution photon gas
      • *27.4 Bose-Einstein condensation
      • *27.5 Specific heat of solids
      • Problems
      • References
    • Chapter 28 Condensed Matter
      • 28.1 Spatial orders in condensed matter
      • 28.2 Hausdorff dimension and fractal
      • 28.3 Bonds in crystals
      • 28.4 Free electron model for metals
      • 28.5 Energy band
      • Problems
      • References
    • Chapter 29 Nuclear Physics
      • 29.1 Atomic nucleus
      • 29.2 Nuclear force and nuclear models
      • 29.3 Radioactive decays
      • *29.4 Mössbauer effect
      • 29.5 Fission and fusion
      • Problems
      • References
    • Chapter 30 Leptons and Quarks
      • 30.1 Particles and their classification
      • 30.2 Interactions
      • 30.3 Conservation laws
      • 30.4 Quarks
      • 30.5 The CPT theorem
      • Problems
      • References
    • Chapter 31 Astrophysics
      • 31.1 Structure and evolution of stars
      • 31.2 White dwarfs
      • 31.3 The neutron stars and pulsars
      • 31.4 Quasar
      • 31.5 Blackhole and primordial blackhole
      • Problems
      • References
    • Chapter 32 Physical Cosmology
      • 32.1 Basic facts and cosmological principle
      • 32.2 Basic concepts
      • 32.3 Curved spacetime and metrics
      • 32.4 Gravitational field equation
      • 32.5 Dynamics of the standard model
      • 32.6 Progress in cosmology
      • Problems
      • References
  • Appendix
    • A Commonly used Physical Constants
    • B Simple Pendulum and Jacobi’s Elliptic Function
    • C Critical and Heavy Damping
    • D Fourier Series and Frequency Spectrum
    • E Integral Results about Packets
    • F Planets in Solar System
    • G Gaussian Integral and Gamma Function
    • H Operator ▼
    • I Dirac Delta Function
    • J Riemann Zeta Function
    • K Wave Functions
    • L Relativistic Transformation of Electromagnetic Field
    • Answers to Odd-Numbered Problems
    • Index

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