population indices - translation to russian
Diclib.com
ChatGPT AI Dictionary
Enter a word or phrase in any language 👆
Language:

Translation and analysis of words by ChatGPT artificial intelligence

On this page you can get a detailed analysis of a word or phrase, produced by the best artificial intelligence technology to date:

  • how the word is used
  • frequency of use
  • it is used more often in oral or written speech
  • word translation options
  • usage examples (several phrases with translation)
  • etymology

population indices - translation to russian

DESCRIBING CRYSTAL LATTICE PLANES
Miller indices; Miller Indices; Miller Index; Miller index notation; Bravais-Miller indices; Miller-Bravais indices; Miller indicies; Miller indice; Millerian; Bravais–Miller indices; Miller–Bravais indices; Miller indexes; Crystallographic face; Miller-Bravias Indices; 111 surface; Crystallographic plane

population indices      
показатели структуры населения.
statistical population         
COMPLETE SET OF ITEMS THAT SHARE AT LEAST ONE PROPERTY IN COMMON THAT IS THE SUBJECT OF A STATISTICAL ANALYSIS
Statistical Population; Population (statistics); Population mean; Subpopulation; Statistical Populations; Sub-population

математика

статистическая совокупность

population mean         
COMPLETE SET OF ITEMS THAT SHARE AT LEAST ONE PROPERTY IN COMMON THAT IS THE SUBJECT OF A STATISTICAL ANALYSIS
Statistical Population; Population (statistics); Population mean; Subpopulation; Statistical Populations; Sub-population

общая лексика

среднее значение

математическое ожидание

Definition

UNFPA
United Nations Fund for Population Activities

Wikipedia

Miller index

Miller indices form a notation system in crystallography for lattice planes in crystal (Bravais) lattices.

In particular, a family of lattice planes of a given (direct) Bravais lattice is determined by three integers h, k, and , the Miller indices. They are written (hkℓ), and denote the family of (parallel) lattice planes (of the given Bravais lattice) orthogonal to g h k = h b 1 + k b 2 + b 3 {\displaystyle \mathbf {g} _{hk\ell }=h\mathbf {b_{1}} +k\mathbf {b_{2}} +\ell \mathbf {b_{3}} } , where b i {\displaystyle \mathbf {b_{i}} } are the basis or primitive translation vectors of the reciprocal lattice for the given Bravais lattice. (Note that the plane is not always orthogonal to the linear combination of direct or original lattice vectors h a 1 + k a 2 + a 3 {\displaystyle h\mathbf {a_{1}} +k\mathbf {a_{2}} +\ell \mathbf {a_{3}} } because the direct lattice vectors need not be mutually orthogonal.) This is based on the fact that a reciprocal lattice vector g {\displaystyle \mathbf {g} } (the vector indicating a reciprocal lattice point from the reciprocal lattice origin) is the wavevector of a plane wave in the Fourier series of a spatial function (e.g., electronic density function) which periodicity follows the original Bravais lattice, so wavefronts of the plane wave are coincident with parallel lattice planes of the original lattice. Since a measured scattering vector in X-ray crystallography, Δ k = k o u t k i n {\displaystyle \mathbf {\Delta k} =\mathbf {k} _{\mathrm {out} }-\mathbf {k} _{\mathrm {in} }} with k o u t {\displaystyle \mathbf {k} _{\mathrm {out} }} as the outgoing (scattered from a crystal lattice) X-ray wavevector and k i n {\displaystyle \mathbf {k} _{\mathrm {in} }} as the incoming (toward the crystal lattice) X-ray wavevector, is equal to a reciprocal lattice vector g {\displaystyle \mathbf {g} } as stated by the Laue equations, the measured scattered X-ray peak at each measured scattering vector Δ k {\displaystyle \mathbf {\Delta k} } is marked by Miller indices. By convention, negative integers are written with a bar, as in 3 for −3. The integers are usually written in lowest terms, i.e. their greatest common divisor should be 1. Miller indices are also used to designate reflections in X-ray crystallography. In this case the integers are not necessarily in lowest terms, and can be thought of as corresponding to planes spaced such that the reflections from adjacent planes would have a phase difference of exactly one wavelength (2π), regardless of whether there are atoms on all these planes or not.

There are also several related notations:

  • the notation {hkℓ} denotes the set of all planes that are equivalent to (hkℓ) by the symmetry of the lattice.

In the context of crystal directions (not planes), the corresponding notations are:

  • [hkℓ], with square instead of round brackets, denotes a direction in the basis of the direct lattice vectors instead of the reciprocal lattice; and
  • similarly, the notation <hkℓ> denotes the set of all directions that are equivalent to [hkℓ] by symmetry.

Note, for Laue-Bragg interferences

  • hkl lacks any bracketing when designating a reflection

Miller indices were introduced in 1839 by the British mineralogist William Hallowes Miller, although an almost identical system (Weiss parameters) had already been used by German mineralogist Christian Samuel Weiss since 1817. The method was also historically known as the Millerian system, and the indices as Millerian, although this is now rare.

The Miller indices are defined with respect to any choice of unit cell and not only with respect to primitive basis vectors, as is sometimes stated.

What is the Russian for population indices? Translation of &#39population indices&#39 to Russian