「electromagnetic」の共起表現一覧(2語左が「of」)
該当件数 : 82件
a beam of incoherent | electromagnetic radiation. |
They consist of two | electromagnetic coils, the transmitter and receiver coils |
c charge determines the strength of their | electromagnetic interactions. |
s "released as a large amount of thermal, | electromagnetic and kinetic energy". |
xwell publishes A Dynamical Theory of the | Electromagnetic Field. |
ment of the microwave radio region of the | electromagnetic spectrum. |
th the visible and invisible parts of the | electromagnetic spectrum. |
This consists of several | electromagnetic coils placed at the vertices of a square |
The V band (vee-band) of the | electromagnetic spectrum ranges from 50 to 75 GHz. |
He was the inventor of the | electromagnetic transmission and a pioneer in the early a |
The Q band of the microwave part of the | electromagnetic spectrum and ranges from 33 to 50 GHz. |
can refer to two different regions of the | electromagnetic spectrum, in the radio and near-infrared. |
designed to allow for measurements of the | electromagnetic interference existing on the power line. |
thin the ultra high frequency part of the | electromagnetic spectrum. |
and outer space in various regions of the | electromagnetic spectrum, and |
isible and the near infrared parts of the | electromagnetic spectrum is observed. |
infrared, and water vapor regions of the | electromagnetic spectrum. |
ithin the very high frequency part of the | electromagnetic spectrum. |
ithin the very high frequency part of the | electromagnetic spectrum. |
or at least the public disclosure) of the | electromagnetic digital computer. |
, functions as a concentrator of incoming | electromagnetic field. |
ntinuum and line-emission portions of the | electromagnetic spectrum of Mkn 590 are highly variable. |
network management) and management of the | electromagnetic spectrum. |
First of all the total energy of the | electromagnetic field is finite and the electric field is |
visible and near infrared regions of the | electromagnetic spectrum. |
can refer to two different regions of the | electromagnetic spectrum, in the radio and near-infrared. |
dio, X-ray, and gamma ray portions of the | electromagnetic spectrum. |
slo he has also studied properties of the | electromagnetic field produced by accelerated electric ch |
ion (about 30 - 150 µm wavelength) of the | electromagnetic spectrum. |
Material scattering of an | electromagnetic wave is scattering that is attributable t |
monitors the changes in the phase of the | electromagnetic field surrounding a signal being applied |
instein's equations in the presence of an | electromagnetic field in four dimensions. |
e end only, to maximize shielding of both | electromagnetic and electrostatic fields. |
ed 'wake-fields' (a strong warping of the | electromagnetic field of the beam) that can interact with |
are spread out because the carrier of the | electromagnetic force, the photon, does not interact with |
output to move towards the red end of the | electromagnetic spectrum. |
of the galaxy in the radio portion of the | electromagnetic spectrum show two jets protruding in oppo |
in the X-ray and Gamma ray regions of the | electromagnetic spectrum. |
onary orbit locations and portions of the | electromagnetic spectrum. |
rates in the low frequency portion of the | electromagnetic spectrum from 90 to 110 Kilohertz. |
ation emitted in the infrared part of the | electromagnetic spectrum. |
in the low (or far) infrared range of the | electromagnetic spectrum. |
, citing the physiological effects of the | electromagnetic field from transmission lines. |
ions in the far-ultraviolet region of the | electromagnetic spectrum. |
thin the ultra high frequency part of the | electromagnetic spectrum. |
he super high frequency (SHF) part of the | electromagnetic spectrum. |
EMP is that all of the components of the | electromagnetic pulse are generated outside of the weapon |
ation utilizing conventional bands of the | electromagnetic spectrum (i.e. |
In particular, a plane wave of incoherent | electromagnetic radiation is a linear superposition of pl |
ultraviolet and infrared portions of the | electromagnetic spectrum. |
e ultraviolet to the radar regions of the | electromagnetic spectrum. |
After most of the | electromagnetic pulse measurements on Starfish Prime had |
lution of the metal or the presence of an | electromagnetic field. |
for large changes in the intensity of the | electromagnetic field. |
n this happens due to the presence of the | electromagnetic field from a photon, a photon is released |
sorbance in the ultraviolet region of the | electromagnetic spectrum, which is useful for laboratory |
lso used to generate 3D images of passive | electromagnetic properties, which has applications in bra |
ow, the only two wavelength ranges of the | electromagnetic spectrum that are not severely attenuated |
he hidden dimensions; the size of various | electromagnetic fields and their generalizations; the val |
enkov emission in the radio regime of the | electromagnetic spectrum from the interaction of high ene |
cy dependence of the phase velocity of an | electromagnetic wave that travels through an ionized medi |
cance: it ensures the universality of the | electromagnetic interaction." |
d, or in any other frequency range of the | electromagnetic radiation). |
e Cook in his investigation of mysterious | electromagnetic waves coming from the jungle, his dinosau |
round field is a classical version of the | electromagnetic ZPF of QED, though in SED literature the |
or coefficient, is the attenuation of an | electromagnetic wave propagating through a medium per uni |
steresis as the magnetic component of the | electromagnetic field repeatedly distorts the crystalline |
obtained patents for the invention of an | electromagnetic station indicator and a railway-car elect |
the end of the 1980s, the topology of the | electromagnetic field was studied in detail and a topolog |
ts), that operate in the same part of the | electromagnetic spectrum as radar guns. |
like charged particles are sources of the | electromagnetic field. |
stronomical objects at wavelengths of the | electromagnetic spectrum that cannot penetrate the Earth' |
ion of the radio frequency portion of the | electromagnetic spectrum (also known as spectrum manageme |
rk Maxwell in 1873, is the physics of the | electromagnetic field; a field encompassing all of space |
ell into the far infrared portions of the | electromagnetic spectrum. |
rk Maxwell's mathematical theories of the | electromagnetic field during the late 1870s and all of th |
ons are in the ultraviolet portion of the | electromagnetic spectrum of the hydrogen atom and immedia |
views the very high energy density of the | electromagnetic vacuum as propagating waves, which must n |
The change in velocity of the | electromagnetic wave induced by propagation through the c |
so observations in these portions of the | electromagnetic spectrum are best carried out from a loca |
, which characterizes the strength of the | electromagnetic interaction, is dimensionless. |
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