Solar cycle dependence of quiet-time magnetospheric currents
... data of low-Earth orbiting satellites, uncertainties in characterizing contributions from ionospheric and magnetospheric currents can be regarded as the prime limiting factor for the achievable accuracy. For satellites, the ionospheric currents generally represent internal sources. Large-scale magne ...
... data of low-Earth orbiting satellites, uncertainties in characterizing contributions from ionospheric and magnetospheric currents can be regarded as the prime limiting factor for the achievable accuracy. For satellites, the ionospheric currents generally represent internal sources. Large-scale magne ...
Astronomy Astrophysics Force-free twisted magnetospheres of neutron stars &
... interesting feature in the persistent emission of all of the magnetar candidates is that their spectra can be well fitted with a thermal component (0.4−0.7 keV) plus a hard nonthermal tail, described by a power law with photon index β ∼ 3−4 (Mereghetti 2008). This hard component is commonly attribut ...
... interesting feature in the persistent emission of all of the magnetar candidates is that their spectra can be well fitted with a thermal component (0.4−0.7 keV) plus a hard nonthermal tail, described by a power law with photon index β ∼ 3−4 (Mereghetti 2008). This hard component is commonly attribut ...
Chapter 18
... atoms that have permanent magnetic moments • These moments interact weakly with each other • When placed in an external magnetic field, atomic moments tend to line up with the field and the alignment process competes with thermal motion which randomizes the moment orientations ...
... atoms that have permanent magnetic moments • These moments interact weakly with each other • When placed in an external magnetic field, atomic moments tend to line up with the field and the alignment process competes with thermal motion which randomizes the moment orientations ...
The phenomenon of magnetism is best understood in terms of
... of the path of a charged particle in a cloud chamber. If the magnetic field is perpendicular to this sheet of paper and directed into the paper, the particle A. has a positive charge and has moved from C to A. B. has a negative charge and has moved from C to A. C. has a positive charge and has moved ...
... of the path of a charged particle in a cloud chamber. If the magnetic field is perpendicular to this sheet of paper and directed into the paper, the particle A. has a positive charge and has moved from C to A. B. has a negative charge and has moved from C to A. C. has a positive charge and has moved ...
phys1444-fall05-092105 - UTA High Energy Physics page.
... • What is the difference between the electric potential and the electric field? – Electric potential • Electric potential energy per unit charge • Inversely proportional to the distance • Simply add the potential by each of the charges to obtain the total potential from multiple charges, since poten ...
... • What is the difference between the electric potential and the electric field? – Electric potential • Electric potential energy per unit charge • Inversely proportional to the distance • Simply add the potential by each of the charges to obtain the total potential from multiple charges, since poten ...
PPT-9
... •1800 Volta makes first battery: greatly increase amount of current available to experimenters. •1820 Oersted, by accident, finds that a changing electric field (current) deflects a compass. This provides the first link between electric and magnetic phenomena. •1882 Maxwell discovers theory of elect ...
... •1800 Volta makes first battery: greatly increase amount of current available to experimenters. •1820 Oersted, by accident, finds that a changing electric field (current) deflects a compass. This provides the first link between electric and magnetic phenomena. •1882 Maxwell discovers theory of elect ...
Electromechanical hysteresis and coexistent states in dielectric elastomers * Suo 兲
... extends to the entire space, both the solid dielectric and the vacuum. All the volume integrals extend over the entire space, and the surface integrals extend over all the interfaces. We take the continuum at a particular time as a reference state and name each material particle using its coordinate ...
... extends to the entire space, both the solid dielectric and the vacuum. All the volume integrals extend over the entire space, and the surface integrals extend over all the interfaces. We take the continuum at a particular time as a reference state and name each material particle using its coordinate ...
