Magnetic elements

Definitions

  • Webster's Revised Unabridged Dictionary
    • Magnetic elements (Chem. Physics) Those elements, as iron, nickel, cobalt, chromium, manganese, etc., which are capable or becoming magnetic.
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Quotations

  • Bruce Barton
    Bruce%20Barton
    “The essential element in personal magnetism is a consuming sincerity -- an overwhelming faith in the importance of the work one has to do.”

Usage

In literature:

Bridemaids became magnetically conscious that an incongruous element had entered; so they tittered.
"Put Yourself in His Place" by Charles Reade
The electrical, the magnetic element in Woman has not been fairly brought out at any period.
"Woman in the Nineteenth Century" by Margaret Fuller Ossoli
The giant was elemental, with a driving force inside him that was dynamic, magnetic.
"A Man to His Mate" by J. Allan Dunn
Next, it should be remembered that all the elements are magnetic in some degree.
"The Machinery of the Universe" by Amos Emerson Dolbear
Elements of Electro-magnetic Theory, by S. J. Barnett, Le-land Stanford, Junior, University.
"A History of Science, Volume 5(of 5)" by Henry Smith Williams
The magnetic elements of a place may be computed from its thermal ones.
"The Philosophy of the Weather" by Thomas Belden Butler
Hence the determination of the magnetic force due to any circuit is reduced to a summation of the effects due to all the elements of length.
"Encyclopaedia Britannica, 11th Edition, Volume 9, Slice 2" by Various
It seems to be a magnet for that element in human nature.
"A Daughter of the Vine" by Gertrude Franklin Horn Atherton
So do the sparks of love, like the electric and magnetic element, dart through a medium of twenty interposed bodies.
"Hesperus or Forty-Five Dog-Post-Days Vol. I." by Jean Paul Friedrich Richter
Determinations of gravity and of the magnetic elements in connection with the U.S. expedition to the west coast of Africa.
"United States Government Publications, v. 8 Jan-Jun 1892" by Compiled
We do not often consider what an important element in our lives are these magnetic currents which link us to our fellows.
"Beyond" by Henry Seward Hubbard
The "magnetic field" of an atom is composed of all the tanmatras and elements above it.
"Evolution of Life and Form" by Annie Wood Besant
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In news:

The separators feature powerful permanent non-electric rare earth magnetics in the rotor element to significantly reduce energy consumption.
Our emotions flow with the magnetic flexibility of the element of water.
The search has great implications for understanding how the tiniest particles work together to make elemental forces like electricity and magnetism work.
New Nanocomposite Magnets Could Reduce the Demand for Rare Earth Elements.
Rare earth elements (REEs) like neodymium and dysprosium can produce high-flux permanent magnets that can tolerate extreme temperatures without the threat of demagnetization.
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In science:

Each element i interacting with the externally applied magnetic field is characterized by a remnant magnetic moment d ~mr (~x) (with Pi d ~mr (~x) = ~mr ) and a susceptibility χ(~x).
Measuring the LISA test mass magnetic proprieties with a torsion pendulum
The photon-neutrino matrix element can be split into two channels, a charge radius term and a magnetic moment term.
Modern tests of Lorentz invariance
In this case the electric and magnetic filling factors must be calculated using a numeric technique such as finite element analysis, method of lines or separation of variables.
Rotating Resonator-Oscillator Experiments to Test Lorentz Invariance in Electrodynamics
To straight-forwardly analyze this non-magnetic solution is cumbersome due to the 4[ℓ]2 independent elements of the density matrix ρ.
Exchange energy dominated by large orbital spin-currents in $\delta$-Pu
Dirac neutrinos. A large magnetic moment would bring right handed neutrinos in thermal equilibrium before the cosmological nucleosynthesis, spoiling the prediction of light elements abundances.
The Impact of Neutrino Magnetic Moments on the Evolution of Massive Stars
We evaluate the diagonal magnetic moment matrix element hΨ(J π ; T )|O|Ψ(J π ; T )i and the off-diagonal transition matrix element hΨf (J π ′ ; T ′)|O|Ψi (J π ; T )i, where O is the full electromagnetic operator.
Quantum Monte Carlo calculations of magnetic moments and M1 transitions in A<=7 nuclei including meson-exchange currents
In RFeAsO (R : rare-earth elements), TS is slightly higher than TN , and the magnetic transition seems to be induced by the structural transition.
To What Extent Iron-Pnictide New Superconductors Have Been Clarified: A Progress Report
Only the diagonal elements of the interference term in Eq. 8.12 are important, because we expect the ion to experience a magnetic field of much larger size than the parity violating vector shift.
Single barium ion spectroscopy: light shifts, hyperfine structure, and progress on an optical frequency standard and atomic parity violation
Magnetic dipole hyperfine interactions in137 ba+ and the accuracies of the neutral weak interaction matrix elements.
Single barium ion spectroscopy: light shifts, hyperfine structure, and progress on an optical frequency standard and atomic parity violation
As explained above the vector field strengths plus their magnetic duals of a 4D supergravity defined by a Jordan algebra J of degree three are in one-to-one correspondence with the elements of the Freudenthal triple F (J ) defined over J .
Lectures on Spectrum Generating Symmetries and U-duality in Supergravity, Extremal Black Holes, Quantum Attractors and Harmonic Superspace
Its elements have the usual interpretation: the time-component is related to the electrostatic potential, while its spatial components determine the 3-vector whose curl is the magnetic field.
General Relativistic MHD Jets
To see the electric and magnetic field components as elements of a tensor rather than as vector quantities may seem in conflict with the usual way to think about these fields.
General Relativistic MHD Jets
In order to study the relationship between the intensity of chromospheric bright features and the intensity of the associated magnetic elements, we computed scatter plots for the pairs of images.
The relationship between chromospheric emissions and magnetic field strength
Some of the peculiar pixels with intense mm brightness (in the upper left corner) are located above localized (small-scale) photospheric magnetic elements and near polarity changes.
The relationship between chromospheric emissions and magnetic field strength
When these elements are radially displaced, they will try to bring the magnetic field with them, but the field diffuses because of resistivity (which would quell the classical MRI).
Resistive double-diffusive instability in the dead-zones of protostellar disks
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