Quantum PhysicsJohn Wiley & Sons, 17 Nis 2003 - 352 sayfa Since the publication of the first edition over 35 years ago, Quantum Physics has been one of the standard quantum mechanics texts for undergraduate physics majors. Its hallmarks are clear, concise exposition and a balance of theory and applications. In the 3rd Edition, the author has made numerous changes based on feedback from teachers and students to enhance the book's strengths. One of the author's important goals has been to offer teachers and students a textbook that is manageable in one semester. However, recognizing that some teachers like to go into more depth on certain topics, he has developed a web site where more detailed presentations can be found. |
İçindekiler
Problems | 21 |
Eigenvalues Eigenfunctions and the Expansion Postulate | 44 |
Normalization of the Free Particle Wave Function | 94 |
From Operators Back to the Schrödinger Equation | 114 |
Angular Momentum | 120 |
Problems | 129 |
The Schrödinger Equation in Three Dimensions | 131 |
Problems | 144 |
The Real Hydrogen Atom | 188 |
Many Particle Systems | 199 |
About Atoms and Molecules | 215 |
TimeDependent Perturbation Theory | 236 |
The Interaction of Charged Particles with the Electromagnetic Field | 246 |
Radiative Decays | 260 |
Selected Topics on Radiation | 270 |
Collision Theory | 287 |
Spin | 158 |
TimeIndependent Perturbation Theory | 174 |
Entanglement and Its Implications | 316 |
Physical Constants | 329 |
Diğer baskılar - Tümünü görüntüle
Sık kullanılan terimler ve kelime öbekleri
angular momentum appears approximation atom beam becomes bound calculate called Chapter classical commute complete condition Consider constant corresponding cross section defined dependence described determined direction discussion effect eigenfunctions eigenstates eigenvalue electron element energy equation example excited expansion expectation experiment expression fact factor field Figure final flux follows frequency given gives ground Hamiltonian harmonic hermitian implies initial integral interference interpretation involves label leads linear magnetic mass matrix means measurement motion normalized Note observed obtained operator orbital oscillator particle phase photon physics possible potential principle probability problem properties quantum mechanics radiation reads reflected relation represented result scattering Schrödinger equation separation shift slit solution space spin square theory tion transition unit vanish vector wave function write yields