qm-cross-sections
... Cross section for potential scattering In a practical scattering situation we have a finite acceptance for a detector with a solid angle W. There is a range of momenta which are allowed by kinematics which can contribute to the cross section. The cross section for scattering into W is then obtain ...
... Cross section for potential scattering In a practical scattering situation we have a finite acceptance for a detector with a solid angle W. There is a range of momenta which are allowed by kinematics which can contribute to the cross section. The cross section for scattering into W is then obtain ...
Naming Chemical Compounds
... H1+ ions can be added to any of the “ates”or “ites” with a 2- or 3- charges, reducing the overall charge of the newly formed polyatomic negative ion by one. This is shown ...
... H1+ ions can be added to any of the “ates”or “ites” with a 2- or 3- charges, reducing the overall charge of the newly formed polyatomic negative ion by one. This is shown ...
Lecture 5 Motion of a charged particle in a magnetic field
... Classically, in electric and magnetic field, particles experience a Lorentz force: F = q (E + v × B) q denotes charge (notation: q = −e for electron). Velocity-dependent force qv × B very different from that derived from scalar potential, and programme for transferring from classical to quantum mech ...
... Classically, in electric and magnetic field, particles experience a Lorentz force: F = q (E + v × B) q denotes charge (notation: q = −e for electron). Velocity-dependent force qv × B very different from that derived from scalar potential, and programme for transferring from classical to quantum mech ...
Conservation of impulse and momentum
... SYSTEM OF PARTICLES (Section 15.3) When the sum of external impulses acting on a system of objects is zero, the linear impulse-momentum equation simplifies to mi(vi)1 = mi(vi)2 This equation is referred to as the conservation of linear momentum. Conservation of linear momentum is often applied w ...
... SYSTEM OF PARTICLES (Section 15.3) When the sum of external impulses acting on a system of objects is zero, the linear impulse-momentum equation simplifies to mi(vi)1 = mi(vi)2 This equation is referred to as the conservation of linear momentum. Conservation of linear momentum is often applied w ...
Linear Motion
... used inclined planes to study accelerations. He found constant accelerations for inclines: the steeper the incline, the greater the acceleration. (It was too hard to measure time for free-falls.) He also found that the size of the objects didn't matter. ...
... used inclined planes to study accelerations. He found constant accelerations for inclines: the steeper the incline, the greater the acceleration. (It was too hard to measure time for free-falls.) He also found that the size of the objects didn't matter. ...
Pulse and Continuous Wave Electron Spin Resonance Investigations of Atoms
... Laboratory of Atomic and Solid State Physics, Cornell University, Ithaca, NY 14853, USA We report pulse and continuous wave (CW) X-band ESR studies of atoms stabilized in impurity-helium (Im-He) solids. The Im-He solids containing H, D or N atoms as impurities were created by sending a mixture gases ...
... Laboratory of Atomic and Solid State Physics, Cornell University, Ithaca, NY 14853, USA We report pulse and continuous wave (CW) X-band ESR studies of atoms stabilized in impurity-helium (Im-He) solids. The Im-He solids containing H, D or N atoms as impurities were created by sending a mixture gases ...
