transiont diffusion - перевод на русский
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transiont diffusion - перевод на русский

Bohm-diffusion; Bohm Diffusion
Найдено результатов: 89
transiont diffusion      

математика

невозвратная диффузия

diffusion welding         
  • Animation of the Diffusion Welding process
  • Animation of sheet forming process using diffusion welding (see also [[hydroforming]]).
  • Animation of Diffusion Bonding Process

общая лексика

диффузионная сварка

diffuse         
  • Diffusion furnaces used for [[thermal oxidation]]
  • Diffusion in the monolayer: oscillations near temporary equilibrium positions and jumps to the nearest free places.
  • Diffusion from a microscopic and  b macroscopic point of view. Initially, there are [[solute]] molecules on the left side of a barrier (purple line) and none on the right. The barrier is removed, and the solute diffuses to fill the whole container. <u>Top:</u> A single molecule moves around randomly. <u>Middle:</u> With more molecules, there is a statistical trend that the solute fills the container more and more uniformly. <u>Bottom:</u> With an enormous number of solute molecules, all randomness is gone: The solute appears to move smoothly and deterministically from high-concentration areas to low-concentration areas. There is no microscopic [[force]] pushing molecules rightward, but there ''appears'' to be one in the bottom panel. This apparent force is called an ''[[entropic force]]''.
  • Time lapse video of diffusion of a dye dissolved in water into a gel.
  • The apparent random motion of atoms, ions or molecules explained. Substances appear to move randomly due to collisions with other substances. From the iBook ''Cell Membrane Transport'', free license granted by IS3D, LLC, 2014.
  • Random collisions of particles in a gas.
NET MOVEMENT OF MOLECULES OR ATOMS FROM A REGION OF HIGH CONCENTRATION (OR HIGH CHEMICAL POTENTIAL) TO A REGION OF LOW CONCENTRATION (OR LOW CHEMICAL POTENTIAL)
Diffuse; Diffusion rate; Rate of diffusion; Diffusibility; Heterogenous diffusion
1) распространяться (напр. о нововведениях)
2) растрачивать, расходовать
diffuse         
  • Diffusion furnaces used for [[thermal oxidation]]
  • Diffusion in the monolayer: oscillations near temporary equilibrium positions and jumps to the nearest free places.
  • Diffusion from a microscopic and  b macroscopic point of view. Initially, there are [[solute]] molecules on the left side of a barrier (purple line) and none on the right. The barrier is removed, and the solute diffuses to fill the whole container. <u>Top:</u> A single molecule moves around randomly. <u>Middle:</u> With more molecules, there is a statistical trend that the solute fills the container more and more uniformly. <u>Bottom:</u> With an enormous number of solute molecules, all randomness is gone: The solute appears to move smoothly and deterministically from high-concentration areas to low-concentration areas. There is no microscopic [[force]] pushing molecules rightward, but there ''appears'' to be one in the bottom panel. This apparent force is called an ''[[entropic force]]''.
  • Time lapse video of diffusion of a dye dissolved in water into a gel.
  • The apparent random motion of atoms, ions or molecules explained. Substances appear to move randomly due to collisions with other substances. From the iBook ''Cell Membrane Transport'', free license granted by IS3D, LLC, 2014.
  • Random collisions of particles in a gas.
NET MOVEMENT OF MOLECULES OR ATOMS FROM A REGION OF HIGH CONCENTRATION (OR HIGH CHEMICAL POTENTIAL) TO A REGION OF LOW CONCENTRATION (OR LOW CHEMICAL POTENTIAL)
Diffuse; Diffusion rate; Rate of diffusion; Diffusibility; Heterogenous diffusion
diffuse 1. adj. 1) рассеянный (о свете и т. п.) 2) распространенный, разбросанный 3) многословный, расплывчатый Syn: see verbose 2. v. 1) рассеивать (свет, тепло и т. п.) 2) распространять to diffuse learning/knowledge - распространять знания 3) распылять; рассыпать, разбрасывать 4) phys. диффундировать (о газах и жидкостях) Syn: see scatter
diffusion         
  • Diffusion furnaces used for [[thermal oxidation]]
  • Diffusion in the monolayer: oscillations near temporary equilibrium positions and jumps to the nearest free places.
  • Diffusion from a microscopic and  b macroscopic point of view. Initially, there are [[solute]] molecules on the left side of a barrier (purple line) and none on the right. The barrier is removed, and the solute diffuses to fill the whole container. <u>Top:</u> A single molecule moves around randomly. <u>Middle:</u> With more molecules, there is a statistical trend that the solute fills the container more and more uniformly. <u>Bottom:</u> With an enormous number of solute molecules, all randomness is gone: The solute appears to move smoothly and deterministically from high-concentration areas to low-concentration areas. There is no microscopic [[force]] pushing molecules rightward, but there ''appears'' to be one in the bottom panel. This apparent force is called an ''[[entropic force]]''.
  • Time lapse video of diffusion of a dye dissolved in water into a gel.
  • The apparent random motion of atoms, ions or molecules explained. Substances appear to move randomly due to collisions with other substances. From the iBook ''Cell Membrane Transport'', free license granted by IS3D, LLC, 2014.
  • Random collisions of particles in a gas.
NET MOVEMENT OF MOLECULES OR ATOMS FROM A REGION OF HIGH CONCENTRATION (OR HIGH CHEMICAL POTENTIAL) TO A REGION OF LOW CONCENTRATION (OR LOW CHEMICAL POTENTIAL)
Diffuse; Diffusion rate; Rate of diffusion; Diffusibility; Heterogenous diffusion

[di'fju:ʒ(ə)n]

общая лексика

диффузия

размывание

расплывание

рассеяние

медицина

диффузионный (относящийся к диффузии)

Смотрите также

annular diffusion; autonomous diffusion; barrier diffusion; bridge diffusion; conservative diffusion; convergent diffusion; counter-current diffusion; dummy diffusion; eddy diffusion; fixed-geometry diffusion; forced diffusion; hole diffusion; inlet diffusion; isentropic diffusion; isotropic diffusion; linear diffusion; multidimensional diffusion; nonlinear diffusion; nonsingular diffusion; one-dimensional diffusion; open diffusion; outward diffusion; pore diffusion; recurrent diffusion; reflecting diffusion; screw diffusion; steady-state diffusion; stopped diffusion; subsonic diffusion; transiont diffusion; unsteady-state diffusion; vaned diffusion; wide-angle diffusion; air diffusion; turbulent diffusion; gas diffusion

существительное

общая лексика

распространение

многословие

расплывчатость

физика

рассеивание

диффузия

рассеивание, диффузия

diffusion         
  • Diffusion furnaces used for [[thermal oxidation]]
  • Diffusion in the monolayer: oscillations near temporary equilibrium positions and jumps to the nearest free places.
  • Diffusion from a microscopic and  b macroscopic point of view. Initially, there are [[solute]] molecules on the left side of a barrier (purple line) and none on the right. The barrier is removed, and the solute diffuses to fill the whole container. <u>Top:</u> A single molecule moves around randomly. <u>Middle:</u> With more molecules, there is a statistical trend that the solute fills the container more and more uniformly. <u>Bottom:</u> With an enormous number of solute molecules, all randomness is gone: The solute appears to move smoothly and deterministically from high-concentration areas to low-concentration areas. There is no microscopic [[force]] pushing molecules rightward, but there ''appears'' to be one in the bottom panel. This apparent force is called an ''[[entropic force]]''.
  • Time lapse video of diffusion of a dye dissolved in water into a gel.
  • The apparent random motion of atoms, ions or molecules explained. Substances appear to move randomly due to collisions with other substances. From the iBook ''Cell Membrane Transport'', free license granted by IS3D, LLC, 2014.
  • Random collisions of particles in a gas.
NET MOVEMENT OF MOLECULES OR ATOMS FROM A REGION OF HIGH CONCENTRATION (OR HIGH CHEMICAL POTENTIAL) TO A REGION OF LOW CONCENTRATION (OR LOW CHEMICAL POTENTIAL)
Diffuse; Diffusion rate; Rate of diffusion; Diffusibility; Heterogenous diffusion
1) рассеивание (распространение влияния одного знака ключа на много знаков шифротекста) 2) преобразование (размывание) открытого текста для нарушения его статистической структуры - cryptoperiod diffusion
- key diffusion
diffuse         
  • Diffusion furnaces used for [[thermal oxidation]]
  • Diffusion in the monolayer: oscillations near temporary equilibrium positions and jumps to the nearest free places.
  • Diffusion from a microscopic and  b macroscopic point of view. Initially, there are [[solute]] molecules on the left side of a barrier (purple line) and none on the right. The barrier is removed, and the solute diffuses to fill the whole container. <u>Top:</u> A single molecule moves around randomly. <u>Middle:</u> With more molecules, there is a statistical trend that the solute fills the container more and more uniformly. <u>Bottom:</u> With an enormous number of solute molecules, all randomness is gone: The solute appears to move smoothly and deterministically from high-concentration areas to low-concentration areas. There is no microscopic [[force]] pushing molecules rightward, but there ''appears'' to be one in the bottom panel. This apparent force is called an ''[[entropic force]]''.
  • Time lapse video of diffusion of a dye dissolved in water into a gel.
  • The apparent random motion of atoms, ions or molecules explained. Substances appear to move randomly due to collisions with other substances. From the iBook ''Cell Membrane Transport'', free license granted by IS3D, LLC, 2014.
  • Random collisions of particles in a gas.
NET MOVEMENT OF MOLECULES OR ATOMS FROM A REGION OF HIGH CONCENTRATION (OR HIGH CHEMICAL POTENTIAL) TO A REGION OF LOW CONCENTRATION (OR LOW CHEMICAL POTENTIAL)
Diffuse; Diffusion rate; Rate of diffusion; Diffusibility; Heterogenous diffusion

[di'fju:s]

общая лексика

диффузный

разбросанный

распространённый

широко ветвящийся

широко расстилающийся

медицина

диффузный (рассеянный)

диффундировать

прилагательное

[di'fju:z]

общая лексика

раскинувшийся

разбросанный

рассеянный (о свете и т. п.)

многословный

болтливый

говорливый

рассеянный (о свете и т. п.)

распространенный, разбросанный

многословный, расплывчатый

физика

диффузный

медицина

разлитой

синоним

verbose

глагол

общая лексика

распространять

распространяться

распылять

рассыпать

разбрызгивать

растрачивать

расходовать

широко раскидываться (о растении)

рассеивать (свет, тепло и т. п.)

рассыпать, разбрасывать

физика

рассеивать (свет и т. п.)

рассеиваться (о свете и т. п.)

диффундировать (о газах и жидкостях)

диспергировать

диффундировать (о газах и жидкостях)

синоним

scatter

diffusion         
  • Diffusion furnaces used for [[thermal oxidation]]
  • Diffusion in the monolayer: oscillations near temporary equilibrium positions and jumps to the nearest free places.
  • Diffusion from a microscopic and  b macroscopic point of view. Initially, there are [[solute]] molecules on the left side of a barrier (purple line) and none on the right. The barrier is removed, and the solute diffuses to fill the whole container. <u>Top:</u> A single molecule moves around randomly. <u>Middle:</u> With more molecules, there is a statistical trend that the solute fills the container more and more uniformly. <u>Bottom:</u> With an enormous number of solute molecules, all randomness is gone: The solute appears to move smoothly and deterministically from high-concentration areas to low-concentration areas. There is no microscopic [[force]] pushing molecules rightward, but there ''appears'' to be one in the bottom panel. This apparent force is called an ''[[entropic force]]''.
  • Time lapse video of diffusion of a dye dissolved in water into a gel.
  • The apparent random motion of atoms, ions or molecules explained. Substances appear to move randomly due to collisions with other substances. From the iBook ''Cell Membrane Transport'', free license granted by IS3D, LLC, 2014.
  • Random collisions of particles in a gas.
NET MOVEMENT OF MOLECULES OR ATOMS FROM A REGION OF HIGH CONCENTRATION (OR HIGH CHEMICAL POTENTIAL) TO A REGION OF LOW CONCENTRATION (OR LOW CHEMICAL POTENTIAL)
Diffuse; Diffusion rate; Rate of diffusion; Diffusibility; Heterogenous diffusion
1) диффузия; проникание
2) распространение, рассредоточение
- diffusion of investment
- diffusion of ownership
- diffusion of profits
- technological diffusion
diffusion         
  • Diffusion furnaces used for [[thermal oxidation]]
  • Diffusion in the monolayer: oscillations near temporary equilibrium positions and jumps to the nearest free places.
  • Diffusion from a microscopic and  b macroscopic point of view. Initially, there are [[solute]] molecules on the left side of a barrier (purple line) and none on the right. The barrier is removed, and the solute diffuses to fill the whole container. <u>Top:</u> A single molecule moves around randomly. <u>Middle:</u> With more molecules, there is a statistical trend that the solute fills the container more and more uniformly. <u>Bottom:</u> With an enormous number of solute molecules, all randomness is gone: The solute appears to move smoothly and deterministically from high-concentration areas to low-concentration areas. There is no microscopic [[force]] pushing molecules rightward, but there ''appears'' to be one in the bottom panel. This apparent force is called an ''[[entropic force]]''.
  • Time lapse video of diffusion of a dye dissolved in water into a gel.
  • The apparent random motion of atoms, ions or molecules explained. Substances appear to move randomly due to collisions with other substances. From the iBook ''Cell Membrane Transport'', free license granted by IS3D, LLC, 2014.
  • Random collisions of particles in a gas.
NET MOVEMENT OF MOLECULES OR ATOMS FROM A REGION OF HIGH CONCENTRATION (OR HIGH CHEMICAL POTENTIAL) TO A REGION OF LOW CONCENTRATION (OR LOW CHEMICAL POTENTIAL)
Diffuse; Diffusion rate; Rate of diffusion; Diffusibility; Heterogenous diffusion
1) диффузия
2) рассеяние
diffusion         
  • Diffusion furnaces used for [[thermal oxidation]]
  • Diffusion in the monolayer: oscillations near temporary equilibrium positions and jumps to the nearest free places.
  • Diffusion from a microscopic and  b macroscopic point of view. Initially, there are [[solute]] molecules on the left side of a barrier (purple line) and none on the right. The barrier is removed, and the solute diffuses to fill the whole container. <u>Top:</u> A single molecule moves around randomly. <u>Middle:</u> With more molecules, there is a statistical trend that the solute fills the container more and more uniformly. <u>Bottom:</u> With an enormous number of solute molecules, all randomness is gone: The solute appears to move smoothly and deterministically from high-concentration areas to low-concentration areas. There is no microscopic [[force]] pushing molecules rightward, but there ''appears'' to be one in the bottom panel. This apparent force is called an ''[[entropic force]]''.
  • Time lapse video of diffusion of a dye dissolved in water into a gel.
  • The apparent random motion of atoms, ions or molecules explained. Substances appear to move randomly due to collisions with other substances. From the iBook ''Cell Membrane Transport'', free license granted by IS3D, LLC, 2014.
  • Random collisions of particles in a gas.
NET MOVEMENT OF MOLECULES OR ATOMS FROM A REGION OF HIGH CONCENTRATION (OR HIGH CHEMICAL POTENTIAL) TO A REGION OF LOW CONCENTRATION (OR LOW CHEMICAL POTENTIAL)
Diffuse; Diffusion rate; Rate of diffusion; Diffusibility; Heterogenous diffusion
сущ.
1) диффузия, распространение; проникновение одних элементов в другие при их соприкосновении;
2) распространение элементов культуры одного общества на другое;
3) многословие, расплывчатость.

Определение

diffuse
I. v. a.
Disperse, scatter, disseminate, spread, circulate, propagate, distribute, pour out, send abroad, spread abroad.
II. a.
1.
Prolix, copious, rambling, loose, verbose, wordy, long-winded, long-spun, spun out.
2.
(Med.) Spreading, ill-defined, vaguely defined.

Википедия

Bohm diffusion

The diffusion of plasma across a magnetic field was conjectured to follow the Bohm diffusion scaling as indicated from the early plasma experiments of very lossy machines. This predicted that the rate of diffusion was linear with temperature and inversely linear with the strength of the confining magnetic field.

The rate predicted by Bohm diffusion is much higher than the rate predicted by classical diffusion, which develops from a random walk within the plasma. The classical model scaled inversely with the square of the magnetic field. If the classical model is correct, small increases in the field lead to much longer confinement times. If the Bohm model is correct, magnetically confined fusion would not be practical.

Early fusion energy machines appeared to behave according to Bohm's model, and by the 1960s there was a significant stagnation within the field. The introduction of the tokamak in 1968 was the first evidence that the Bohm model did not hold for all machines. Bohm predicts rates that are too fast for these machines, and classical too slow; studying these machines has led to the neoclassical diffusion concept.

Как переводится transiont diffusion на Русский язык