versatility in structure shapes - перевод на русский
Diclib.com
Словарь ChatGPT
Поиск в словаре Индивидуальные решения
Введите слово или словосочетание на любом языке 👆
Язык:

Перевод и анализ слов искусственным интеллектом ChatGPT

На этой странице Вы можете получить подробный анализ слова или словосочетания, произведенный с помощью лучшей на сегодняшний день технологии искусственного интеллекта:

  • как употребляется слово
  • частота употребления
  • используется оно чаще в устной или письменной речи
  • варианты перевода слова
  • примеры употребления (несколько фраз с переводом)
  • этимология
  1. Словари
  2. Англо-русский словарь
  3. versatility in structure shapes

versatility in structure shapes - перевод на русский

UNICODE BLOCK (U+25A0-25FF)
■; □; ▫; ▬; ▲; ►; ▼; ◄; ○; ●; ◙; △; ▽; ◀; ◇; ◆; ▮; ▯; ▭; ◁; ▴; ▵; ▸; ▹; ▻; ▾; ▿; ◂; ◃; ◈; ◍; ◐; ◑; ◒; ◓; ◔; ◕; ◬; ◭; ◮; ◤; ◥; Unicode geometric shapes; Square character; ▣; ▤; ▥; ▦; ▧; ▨; ▩; Unicode Geometric Shapes; Geometric Shapes Unicode block; ▢; ◣; ◢; ◧; ◨; ◩; ◪; ◫; ◰; ◱; ◲; ◳; ◴; ◵; ◶; ◷; ◸; ◹; ◺; ◻; ◼; ◽; ◾; ◿; Geometric Shapes (Unicode); Square symbol; Geometric Shapes
Найдено результатов: 17451
versatility in structure shapes      

строительное дело

разнообразие конструктивных форм

versatility in structure shapes      
разнообразие конструктивных форм
underlying structure         
CONCEPT IN LINGUISTICS
Deep Structure; Deep grammar; Deep structures; D-Structures; D-structure; Underlying structure; Deep structure code; Deep structure; D-Structure; S-structure; S-Structure; Deep structures and surface structures; Deep and surface structure

математика

несущая структура

band theory of solids         
  • Fig 1. [[Brillouin zone]] of a [[face-centered cubic lattice]] showing labels for special symmetry points.
  • InAs]] generated with tight binding model. Note that Si and Ge are indirect band gap materials, while GaAs and InAs are direct.
  • Animation of band formation and how electrons fill them in a metal and an insulator
  • A hypothetical example of a large number of carbon atoms being brought together to form a diamond crystal, demonstrating formation of the electronic band structure. The right graph shows the energy levels as a function of the spacing between atoms. When far apart ''(right side of graph)'' all the atoms have discrete valence orbitals ''p'' and ''s'' with the same energies. However, when the atoms come closer ''(left side)'', their electron orbitals begin to spatially overlap. The orbitals hybridize, and each atomic level splits into ''N'' levels with different energies, where ''N'' is the number of atoms. Since ''N'' is a very large number in a macroscopic sized crystal, the adjacent levels are energetically close together, effectively forming a continuous energy band. At the actual diamond crystal cell size (denoted by ''a''), two bands are formed, called the valence and conduction bands, separated by a 5.5 eV band gap. Decreasing the inter-atomic spacing even more (e.g., under a high pressure) further modifies the band structure.
DESCRIBES THE RANGE OF ENERGIES THAT AN ELECTRON WITHIN THE SOLID MAY HAVE AND RANGES OF ENERGY THAT IT MAY NOT HAVE
Band structure; Band theory; Energy band; Electron band; Band theory of solids; Energy bands; Theory of electrons in solids; Band structures; Band-structure
зонная теория твердых тел
band theory of solids         
  • Fig 1. [[Brillouin zone]] of a [[face-centered cubic lattice]] showing labels for special symmetry points.
  • InAs]] generated with tight binding model. Note that Si and Ge are indirect band gap materials, while GaAs and InAs are direct.
  • Animation of band formation and how electrons fill them in a metal and an insulator
  • A hypothetical example of a large number of carbon atoms being brought together to form a diamond crystal, demonstrating formation of the electronic band structure. The right graph shows the energy levels as a function of the spacing between atoms. When far apart ''(right side of graph)'' all the atoms have discrete valence orbitals ''p'' and ''s'' with the same energies. However, when the atoms come closer ''(left side)'', their electron orbitals begin to spatially overlap. The orbitals hybridize, and each atomic level splits into ''N'' levels with different energies, where ''N'' is the number of atoms. Since ''N'' is a very large number in a macroscopic sized crystal, the adjacent levels are energetically close together, effectively forming a continuous energy band. At the actual diamond crystal cell size (denoted by ''a''), two bands are formed, called the valence and conduction bands, separated by a 5.5 eV band gap. Decreasing the inter-atomic spacing even more (e.g., under a high pressure) further modifies the band structure.
DESCRIBES THE RANGE OF ENERGIES THAT AN ELECTRON WITHIN THE SOLID MAY HAVE AND RANGES OF ENERGY THAT IT MAY NOT HAVE
Band structure; Band theory; Energy band; Electron band; Band theory of solids; Energy bands; Theory of electrons in solids; Band structures; Band-structure

физика

зонная теория твердых тел

tertiary structure         
  • The tertiary structure of a protein consists of the way a polypeptide is formed of a complex molecular shape. This is caused by R-group interactions such as ionic and hydrogen bonds, disulphide bridges, and hydrophobic & hydrophilic interactions.
3D SHAPE OF PROTEIN MOLECULE
Tertiary structure protein; Protein structure, tertiary; Tertiary structure of proteins; Tertiary structure; Tertiary protein structure; Tertiary (protein structure); Tertiary structural; Three-dimensional protein structure; Three dimensional protein structure; 3-dimensional protein structure; 3-D protein structure; 3D protein structure; Apo structure; Holo structure; Protein 3D structures; Protein 3D structure

общая лексика

третичная структура (белка)

data structure         
  • Python 3]].
PARTICULAR WAY OF STORING AND ORGANIZING DATA IN A COMPUTER
Data structures; Data Structures; Composite data structure; Structure (CS); Structure (computer science); Active data structure; Pattern Oriented Rule Implementation; Pattern oriented Rule Implementation; PORI; Data Structure; Datastructure; Data structure augmentation; Augmenting Data Structures; Linear and nonlinear data structure; Types of data structures; Types of Data Structures; Static and dynamic data structures; Construct (information technology)

общая лексика

структура данных

в программировании - описание полей записи, таблицы, списка, массива, файла и т.п.

Смотрите также

array; DBMS; field; file; list; record

band theory         
  • Fig 1. [[Brillouin zone]] of a [[face-centered cubic lattice]] showing labels for special symmetry points.
  • InAs]] generated with tight binding model. Note that Si and Ge are indirect band gap materials, while GaAs and InAs are direct.
  • Animation of band formation and how electrons fill them in a metal and an insulator
  • A hypothetical example of a large number of carbon atoms being brought together to form a diamond crystal, demonstrating formation of the electronic band structure. The right graph shows the energy levels as a function of the spacing between atoms. When far apart ''(right side of graph)'' all the atoms have discrete valence orbitals ''p'' and ''s'' with the same energies. However, when the atoms come closer ''(left side)'', their electron orbitals begin to spatially overlap. The orbitals hybridize, and each atomic level splits into ''N'' levels with different energies, where ''N'' is the number of atoms. Since ''N'' is a very large number in a macroscopic sized crystal, the adjacent levels are energetically close together, effectively forming a continuous energy band. At the actual diamond crystal cell size (denoted by ''a''), two bands are formed, called the valence and conduction bands, separated by a 5.5 eV band gap. Decreasing the inter-atomic spacing even more (e.g., under a high pressure) further modifies the band structure.
DESCRIBES THE RANGE OF ENERGIES THAT AN ELECTRON WITHIN THE SOLID MAY HAVE AND RANGES OF ENERGY THAT IT MAY NOT HAVE
Band structure; Band theory; Energy band; Electron band; Band theory of solids; Energy bands; Theory of electrons in solids; Band structures; Band-structure

физика

зонная теория

differentiable structure         
MATHEMATICAL STRUCTURE
Differentiable structure

математика

дифференцируемая структура

differential structure         
MATHEMATICAL STRUCTURE
Differentiable structure

математика

дифференциальная структура

Определение

ИН-КВАРТО
нареч., полигр.
В 1/4 листа (о формате издания, получаемом фальцовкой (см. ФАЛЬЦ) в два сгиба).||Ср. ИН-ОКТАВО, ИН-ПЛАНО, ИН-ФОЛИО.
Показать больше определений

Википедия

Geometric Shapes (Unicode block)

Geometric Shapes is a Unicode block of 96 symbols at code point range U+25A0–25FF.

https://en.wikipedia.org/wiki/Geometric Shapes (Unicode block)
Как переводится versatility in structure shapes на Русский язык
Поиск в словаре
Все словари Английский словарь Англо-арабский словарь Англо-голландский словарь Англо-греческий словарь Англо-испанский словарь Англо-итальянский словарь Англо-немецкий словарь Англо-русский словарь Англо-французский словарь Арабский словарь Голландский словарь Греческий словарь Испанский словарь Итальянский словарь Итальянско-русский словарь Латинско-испанский словарь Латинско-португальский словарь Немецкий словарь Португальский словарь Португальско-русский словарь Русский словарь Французский словарь Французско-русский словарь
Создано ИИ
Английский Русский Испанский Португальский Немецкий Французский Греческий Голландский Итальянский Арабский
Язык интерфейса
Русский English Español Português Deutsch Français Ελληνικά Nederlands Italiano عربي
Контакты
Свяжитесь с нами



Конфиденциальность
Политика конфиденциальности