Carolyn Tewksbury
... that are based on Delaney and Pollard’s 1981 model, and these models were used to determine the depth of connection between the dikes and the orientation of the dike segments with respect to the main dike. However, the four initial models produced anomalies that are both larger and wider than the an ...
... that are based on Delaney and Pollard’s 1981 model, and these models were used to determine the depth of connection between the dikes and the orientation of the dike segments with respect to the main dike. However, the four initial models produced anomalies that are both larger and wider than the an ...
Magnetic Flux Density (Cont`d)
... The magnetic dipole is analogous to the electric dipole. Just as the electric dipole is useful in helping us to understand the behavior of dielectric materials, so the magnetic dipole is useful in helping us to understand the behavior of magnetic materials. ...
... The magnetic dipole is analogous to the electric dipole. Just as the electric dipole is useful in helping us to understand the behavior of dielectric materials, so the magnetic dipole is useful in helping us to understand the behavior of magnetic materials. ...
GENERAL INTRODUCTION 1. Introduction
... Static magnetic fields can interact with tissues by three mechanisms (Tenforde, 1990, 1992). Firstly, electrodynamic interactions occur with ionic currents, such as blood flow or nerve impulse conduction. This interaction leads to the induction of electric field and electrical potential, e.g. across ...
... Static magnetic fields can interact with tissues by three mechanisms (Tenforde, 1990, 1992). Firstly, electrodynamic interactions occur with ionic currents, such as blood flow or nerve impulse conduction. This interaction leads to the induction of electric field and electrical potential, e.g. across ...
Magnetohydrodynamic Effects in Gamma
... • For high-s flow, ejecta would experience magnetic acceleration at small radii, before reaching the coasting regime; the coasting Lorentz factor (initial Lorentz factor for the afterglow) = terminal Lorentz factor (same mechanism also seen in Mimica et al. 2009) • Our results suggest the possibilit ...
... • For high-s flow, ejecta would experience magnetic acceleration at small radii, before reaching the coasting regime; the coasting Lorentz factor (initial Lorentz factor for the afterglow) = terminal Lorentz factor (same mechanism also seen in Mimica et al. 2009) • Our results suggest the possibilit ...
15_chapter 5
... shifted from parallel to perpendicular direction with respect to thermal gradient. Inset of Fig. 5.5 shows the schematics of possible nanoparticle orientation with respect to thermal gradient when the magnetic field direction is varied from parallel to perpendicular direction. Figure 5.6 shows the v ...
... shifted from parallel to perpendicular direction with respect to thermal gradient. Inset of Fig. 5.5 shows the schematics of possible nanoparticle orientation with respect to thermal gradient when the magnetic field direction is varied from parallel to perpendicular direction. Figure 5.6 shows the v ...
ppt
... General properties of Cosmic Ray (CR) acceleration Diffusive shock acceleration Acceleration of CRs in Supernova Remnants (SNRs) Nonthermal emission of individual SNRs SNRs as Galactic CR source Some aspects of UHECR production in GRBs and extragalactic jets ...
... General properties of Cosmic Ray (CR) acceleration Diffusive shock acceleration Acceleration of CRs in Supernova Remnants (SNRs) Nonthermal emission of individual SNRs SNRs as Galactic CR source Some aspects of UHECR production in GRBs and extragalactic jets ...
STRONG MAGNETIC FIELD INDUCED SEGREGATION AND SELF
... technology which makes strong magnetic fields of 10 T or higher easily attainable [2]. A lot of interesting phenomena have been observed and attracted considerable attention in the field of materials processing. Aspects that have been investigated include magnetic orientation [3], magneto-thermodyna ...
... technology which makes strong magnetic fields of 10 T or higher easily attainable [2]. A lot of interesting phenomena have been observed and attracted considerable attention in the field of materials processing. Aspects that have been investigated include magnetic orientation [3], magneto-thermodyna ...
Electromagnetic Induction
... Setup DataStudio to accept measurements from a Voltage Sensor and the Rotary Motion Sensor. Configure the voltage sensor to take measurements at 100 Hz by double clicking on its icon in the Experiment Setup window and selecting this rate in the Sensor Properties window. Double click on the icon for ...
... Setup DataStudio to accept measurements from a Voltage Sensor and the Rotary Motion Sensor. Configure the voltage sensor to take measurements at 100 Hz by double clicking on its icon in the Experiment Setup window and selecting this rate in the Sensor Properties window. Double click on the icon for ...
Hyperfine Splitting and Room-Temperature Ferromagnetism of Ni at Multimegabar Pressure
... ferromagnetic up to this pressure, the highest pressure where magnetism in any material has been observed so far. Experimental observations are confirmed by theoretical ab initio DFT calculations, which reproduce the peculiar pressure dependence of the hyperfine field, and reveal that it is a clear ...
... ferromagnetic up to this pressure, the highest pressure where magnetism in any material has been observed so far. Experimental observations are confirmed by theoretical ab initio DFT calculations, which reproduce the peculiar pressure dependence of the hyperfine field, and reveal that it is a clear ...
Magnets - West Ada
... attracting themselves. Magnets vary in strength. Dent he fooled by the size of a magnet, though. because biger magnets do not necessarily mean stronger magnets. The strength of a magnet is determined by the amount of force ii uses to attract or repel objects around it. Do you remember where the stre ...
... attracting themselves. Magnets vary in strength. Dent he fooled by the size of a magnet, though. because biger magnets do not necessarily mean stronger magnets. The strength of a magnet is determined by the amount of force ii uses to attract or repel objects around it. Do you remember where the stre ...
Magnetometer
Magnetometers are measurement instruments used for two general purposes: to measure the magnetization of a magnetic material like a ferromagnet, or to measure the strength and, in some cases, the direction of the magnetic field at a point in space.The first magnetometer was invented by Carl Friedrich Gauss in 1833 and notable developments in the 19th century included the Hall Effect which is still widely used.Magnetometers are widely used for measuring the Earth's magnetic field and in geophysical surveys to detect magnetic anomalies of various types. They are also used militarily to detect submarines. Consequently, some countries, such as the USA, Canada and Australia classify the more sensitive magnetometers as military technology, and control their distribution.Magnetometers can be used as metal detectors: they can detect only magnetic (ferrous) metals, but can detect such metals at a much larger depth than conventional metal detectors; they are capable of detecting large objects, such as cars, at tens of metres, while a metal detector's range is rarely more than 2 metres.In recent years magnetometers have been miniaturized to the extent that they can be incorporated in integrated circuits at very low cost and are finding increasing use as compasses in consumer devices such as mobile phones and tablet computers.