I II III
... constants A and F. We need to determine them in order to calculate the transmission. We also wrote down solutions for the wavefunction in region II, but this just introduced two new constants, C and D. That doesn't seem to help. Seems to have made it worse because we just have more “stuff” to calcul ...
... constants A and F. We need to determine them in order to calculate the transmission. We also wrote down solutions for the wavefunction in region II, but this just introduced two new constants, C and D. That doesn't seem to help. Seems to have made it worse because we just have more “stuff” to calcul ...
Slides - Sparks CH301
... • De Broglie extends the idea of wave-particle duality to matter • Rydberg and Bohr extends quantization by applying it to the hydrogen atom. – This explained spectra, a known phenomenon. – Didn’t work for multi-electron atoms ...
... • De Broglie extends the idea of wave-particle duality to matter • Rydberg and Bohr extends quantization by applying it to the hydrogen atom. – This explained spectra, a known phenomenon. – Didn’t work for multi-electron atoms ...
Chapter 1 Review of Quantum Mechanics
... where k represents one set of so-called quantum numbers, usually discrete. Examples of quantum numbers are linear momentum, angular momentum, etc. Different set of quantum numbers, say, k1 , k2 , · · ·, represent different wavefunction Φk1 (r) , Φk2 (r) , · · · which correspond to different states o ...
... where k represents one set of so-called quantum numbers, usually discrete. Examples of quantum numbers are linear momentum, angular momentum, etc. Different set of quantum numbers, say, k1 , k2 , · · ·, represent different wavefunction Φk1 (r) , Φk2 (r) , · · · which correspond to different states o ...
Variation of the Gravitational Constant and its Consequences
... experience.1 It is reasonable to extrapolate and suggest that in the limit of zero time, gravity could have been infinitely strong or at least extremely large.2 Enough to say that at some early moment after t = 0 it would surely have been as strong as the electromagnetic field we know today. This le ...
... experience.1 It is reasonable to extrapolate and suggest that in the limit of zero time, gravity could have been infinitely strong or at least extremely large.2 Enough to say that at some early moment after t = 0 it would surely have been as strong as the electromagnetic field we know today. This le ...