Impulse and Momentum
... object and the time interval over which it acts (measures in Newton-seconds) Momentum: mv, or the product of the object’s mass and the objects velocity Impulse-momentum Theorem: FΔt= pf –pi ; The impulse on an object is equal to the object’s final momentum mines the object’s initial momentum (p= ...
... object and the time interval over which it acts (measures in Newton-seconds) Momentum: mv, or the product of the object’s mass and the objects velocity Impulse-momentum Theorem: FΔt= pf –pi ; The impulse on an object is equal to the object’s final momentum mines the object’s initial momentum (p= ...
Quantum Theory of the Coherently Pumped Micromaser
... Phase Properties of the Coherently Pumped Micromaser It is quite clear that the strong coherence present in this system also calls for an understanding of its features in terms of quantum phase. Studying the phase properties of quantum fields is arguably one of the most controversial subjects in phy ...
... Phase Properties of the Coherently Pumped Micromaser It is quite clear that the strong coherence present in this system also calls for an understanding of its features in terms of quantum phase. Studying the phase properties of quantum fields is arguably one of the most controversial subjects in phy ...
PHY313 - CEI544 The Mystery of Matter From Quarks to the
... Herman Weyl; measured in inches here and in cm there. The description of a result the master of symmetries should not depend on the measuring “gauge”. • Gauge transformations transform a description of a solution at one point in space to another description in another point in space. ...
... Herman Weyl; measured in inches here and in cm there. The description of a result the master of symmetries should not depend on the measuring “gauge”. • Gauge transformations transform a description of a solution at one point in space to another description in another point in space. ...
Slides
... How to create enough matter for subsequent nucleogenesis before universe gets too large before universe gets too large. 2. Decoupling of matter scale and Planck scale Matter interactions proceed at nuclear scale of 1 GeV. p But equations have built‐in Planck scale of 1018 GeV. How do these scales ...
... How to create enough matter for subsequent nucleogenesis before universe gets too large before universe gets too large. 2. Decoupling of matter scale and Planck scale Matter interactions proceed at nuclear scale of 1 GeV. p But equations have built‐in Planck scale of 1018 GeV. How do these scales ...
Cooling and Trapping Neutral Atoms
... atoms Ferromagnetism of delocalized (itinerant) fermions occurs due to repulsive interactions and the exchange energy which reduces the interaction energy for spin polarized domains due to the Pauli exclusion principle. At a critical interaction, given by the so-called Stoner criterion [2], they sys ...
... atoms Ferromagnetism of delocalized (itinerant) fermions occurs due to repulsive interactions and the exchange energy which reduces the interaction energy for spin polarized domains due to the Pauli exclusion principle. At a critical interaction, given by the so-called Stoner criterion [2], they sys ...
Uncertainty in the classroom
... repulsion via the exchange of particle C. Such exchanged particles are examples of virtual particles, so called since they are never directly observed and only exist for an unmeasurably short time. However, our naı̈ve picture of particle exchange has several problems. One difficulty is that if parti ...
... repulsion via the exchange of particle C. Such exchanged particles are examples of virtual particles, so called since they are never directly observed and only exist for an unmeasurably short time. However, our naı̈ve picture of particle exchange has several problems. One difficulty is that if parti ...
pptx
... A simplistic way of understanding the action of the T1 and T2 relaxation mechanisms is to consider thermally fluctuating magnetic fields in the laboratory frame. These fields will rotate the individual components of the magnetization and a dephasing process will decrease the magnitude of the transve ...
... A simplistic way of understanding the action of the T1 and T2 relaxation mechanisms is to consider thermally fluctuating magnetic fields in the laboratory frame. These fields will rotate the individual components of the magnetization and a dephasing process will decrease the magnitude of the transve ...
