AtomsFirst2e_day6_sec3.7
... DAY 6, Specific outcomes and skills that may be tested on exam 1: Sections 3.7-3.8 •Given a set of quantum numbers, be able to describe the energy level, subshell (s, p, d, or f), and spin state for an electron •Given information about the principle energy level or shell, subshell (s, p, d, or f), a ...
... DAY 6, Specific outcomes and skills that may be tested on exam 1: Sections 3.7-3.8 •Given a set of quantum numbers, be able to describe the energy level, subshell (s, p, d, or f), and spin state for an electron •Given information about the principle energy level or shell, subshell (s, p, d, or f), a ...
Chapter 4.2 Quantum Models
... According to the relationship E = hν (Planks Law), these frequencies corresponded to specific energies—the quantized energies of Bohr’s orbits ...
... According to the relationship E = hν (Planks Law), these frequencies corresponded to specific energies—the quantized energies of Bohr’s orbits ...
Quantum Information Technology
... .- The blackbody, Planck's law. Wave-corpuscle duality, De Broglie's law. Electron difraction. Energy quantization. Photoelectric effect. Bohr's atom model. .- Schrödinger equation. Probabilistic interpretation of the wave function. Quantum states and entanglement. Unidimensional potentials. The squ ...
... .- The blackbody, Planck's law. Wave-corpuscle duality, De Broglie's law. Electron difraction. Energy quantization. Photoelectric effect. Bohr's atom model. .- Schrödinger equation. Probabilistic interpretation of the wave function. Quantum states and entanglement. Unidimensional potentials. The squ ...
