The Particulate Nature of Light
... Electrons have been regarded as showing particle-like properties - e.g., the deflection of a stream of electrons is just like the path of a projectile. Electrons can also exhibit wave properties - e.g., they can demonstrate diffraction. De Broglie proposed that an electron of mass m moving with spee ...
... Electrons have been regarded as showing particle-like properties - e.g., the deflection of a stream of electrons is just like the path of a projectile. Electrons can also exhibit wave properties - e.g., they can demonstrate diffraction. De Broglie proposed that an electron of mass m moving with spee ...
Quantum Physics and Human Affairs
... Newtonian terms, the scientifically accepted quantum description is radically different. According to Newtonian physics, the universe behaves like a perfect mechanical device such as a precise clock. The universe, according to this view, is made of many tiny independent parts (atoms) interacting wit ...
... Newtonian terms, the scientifically accepted quantum description is radically different. According to Newtonian physics, the universe behaves like a perfect mechanical device such as a precise clock. The universe, according to this view, is made of many tiny independent parts (atoms) interacting wit ...
CHEM 347 Quantum Chemistry
... classical mechanics to high velocities and astronomical distances. Quantum Mechanics: developed over decades by many scientists. Deals with the microscopic at the level of atoms, electrons and smaller. Quantum Mechanics has had a profound effect on our understanding of chemistry. There is a sub-disc ...
... classical mechanics to high velocities and astronomical distances. Quantum Mechanics: developed over decades by many scientists. Deals with the microscopic at the level of atoms, electrons and smaller. Quantum Mechanics has had a profound effect on our understanding of chemistry. There is a sub-disc ...
4 colour slides per page
... There must be something about the electron-electron repulsion in multi-electron atoms that makes s orbitals lower in energy than p & d orbitals. If this effect become very extreme, the 4s might be lower in energy than the 3d orbitals. These effects are best understood by looking at radial distributi ...
... There must be something about the electron-electron repulsion in multi-electron atoms that makes s orbitals lower in energy than p & d orbitals. If this effect become very extreme, the 4s might be lower in energy than the 3d orbitals. These effects are best understood by looking at radial distributi ...
The Boltzmann equation
... To solve we need further approximations 1_ One relaxation time 2_ Gaussian ansatz similar to the previous approach, but gives also an estimate for the relaxation time ...
... To solve we need further approximations 1_ One relaxation time 2_ Gaussian ansatz similar to the previous approach, but gives also an estimate for the relaxation time ...
Electron dipole moments - University of Toronto Physics
... which leads to a large motional magnetic field that must be controlled very carefully.T h e advantage is that they are able to apply a much larger electric field (about 100 kVcmL')i~ h e vacuum, which makes the precession mgfe more sensitive to the eleccric dipole moment. Moreover, thallium has the ...
... which leads to a large motional magnetic field that must be controlled very carefully.T h e advantage is that they are able to apply a much larger electric field (about 100 kVcmL')i~ h e vacuum, which makes the precession mgfe more sensitive to the eleccric dipole moment. Moreover, thallium has the ...