## Modern PhysicsThis new edition combines pedagogy, problem sets, and teaching art in a presentation that includes coverage of a number of new topics and discoveries. It features problems divided by level of difficulty; offers valuable grounding in the history of the field; accommodates both one and two term courses and allows instructors vary the applications topics covered from term to term; uses real data, photographs of people and apparatus, and quotations from original papers; cover relativity divided into two chapters, enabling instructors to teach just the basics or go deeper without disturbing continuity; has exploring sections throughout which deal with very current topics and/or topics of high student interest; and a new chapter, Astrophysics and Cosmology, is featured on the Modern Physics Web Site, complete with dramatic colour photos, and links to astronomy and astrophysics research sites worldwide. |

### What people are saying - Write a review

User Review - Flag as inappropriate

Has quite a few errors and (in my opinion) tends to be very wordy at times, while not giving enough information at others.

### Contents

Part | 1 |

Relativity II | 69 |

Quantization of Charge Light and Energy | 125 |

The Nuclear Atom | 162 |

The Wavelike Properties of Particles | 203 |

The Schrodinger Equation | 242 |

Atomic Physics | 291 |

Statistical Physics | 338 |

Nuclear Physics | 506 |

Mass Formula | 519 |

Nuclear Reactions and Applications | 562 |

Particle Physics | 615 |

Appendix A Table of Atomic Masses AP1 | AQ-1 |

Appendix B Mathematical Aids AP16 | AQ-16 |

Electron Configurations AP23 | AQ-23 |

Appendix E Conversion Factors AP32 | AQ-32 |

### Other editions - View all

### Common terms and phrases

acceleration angle angular momentum atoms average axis beam blackbody Bohr bonding Broglie calculation called Chapter charge classical clock collision component Compute constant crystal decay density detector diffraction Earth effect Einstein electromagnetic electron emission emitted energy levels equal example excited experiment experimental fission force frequency given by Equation gravitational helium hydrogen hydrogen atom illustrated inertial frame infinite square interaction interval ionization ions kinetic energy laser Lorentz transformation magnetic field magnetic moment magnitude measured molecules motion moving neutron nuclear nucleons nucleus observer orbit oscillator particle photoelectric effect photon physics potential energy predicted probability problem quantized quantum number radiation radius rays reaction reference frame relative relativistic rest energy rest mass result rotational scattering Schrodinger equation Section Show shown in Figure Solution space special relativity spectra spectrum speed of light spin superconductor superfluid temperature theory tion total energy transitions velocity vibrational wave function wavelength worldline zero