The Roots of Things: Topics in Quantum MechanicsSpringer Science & Business Media, 1999 M05 31 - 576 páginas Grometstein explains modern physics with enthusiasm, wit and insight. As he presents the usual milestones in the history of modern physics, his central focus is the historical debate regarding the nature of light: is it a particle or is it a wave? This book will be read by generations of students in physical science who seek a well written discussion of these important issues. Grometstein includes material which is quite recent, thus making the present volume particularly useful. |
Contenido
II | 1 |
III | 18 |
IV | 23 |
V | 47 |
VI | 56 |
VII | 59 |
VIII | 65 |
IX | 82 |
XXV | 307 |
XXVI | 327 |
XXVII | 329 |
XXVIII | 347 |
XXIX | 375 |
XXX | 380 |
XXXI | 385 |
XXXII | 399 |
X | 93 |
XI | 132 |
XII | 136 |
XIII | 141 |
XIV | 145 |
XV | 173 |
XVI | 176 |
XVII | 183 |
XVIII | 197 |
XIX | 209 |
XX | 233 |
XXI | 257 |
XXII | 261 |
XXIII | 285 |
XXIV | 293 |
XXXIII | 403 |
XXXIV | 407 |
XXXV | 439 |
XXXVI | 445 |
XXXVII | 472 |
XXXVIII | 485 |
XXXIX | 491 |
XL | 515 |
XLI | 536 |
XLII | 545 |
XLIII | 551 |
553 | |
559 | |
565 | |
Otras ediciones - Ver todas
The Roots of Things: Topics in Quantum Mechanics Alan A. Grometstein Sin vista previa disponible - 2011 |
The Roots of Things: Topics in Quantum Mechanics Alan A. Grometstein Sin vista previa disponible - 2012 |
Términos y frases comunes
alpha amplitude analyzer angle argument atom ball barrier Bell's Bell's inequality blackbody body Bohm Bohm's Bohr Bohr's Broglie Broglie's cavity Chapter classical physics collapse concept configuration constant coordinate Copenhagen Interpretation deflection diffraction Dirac discussion distance Einstein electron emitted emitter equation ether event example experimental explain factor field Figure force frequency gedanken experiment Heisenberg intensity interpretation kinetic energy laboratory light lightcone lightspeed mask mathematical matter wave Maxwell's equations measure momentum motion moving Newton Niels Bohr Nobel nucleus observer orbit oscillations particle pass path photoelectrons photon phrase physicists Planck polarization position postulate potential precise predict quantized quantum mechanics question radiation relation Rutherford S-equation Schrödinger scientists screen shows signal sinusoid slit spectrum speed standing waves stripes subpackets surface theory tilt transverse wave traveling wave front wave function wave function collapses wave packet wavelength x-axis zero