Нанотехнологии – это широкий термин, который может относиться к чему и перевод - Нанотехнологии – это широкий термин, который может относиться к чему и английский как сказать

Нанотехнологии – это широкий термин

Нанотехнологии – это широкий термин, который может относиться к чему инженерии вплоть до нанометрового — миллиардного размер метра. Иногда называется наука сделать вещи очень маленькие, Нанотех обеспечивает возможность изолировать и манипулировать одной атомы, которые ведут себя очень по-разному чем кластеризованный атомов. Ученые по полям сотрудничают, чтобы узнать, как разблокировать потенциал в общих материалов, манипулируя ими на уровне молекулярной и атомной.Давайте рассмотрим историю этого вопроса. Идея нанотехнологий родился в 1959 году, когда физик Ричард Фейнман выступил с лекцией, изучает идею создания вещей на атомном и молекулярном уровне. Он представлял всей энциклопедии Британника, написанные на голову ПИН-кода. Однако экспериментальные нанотехнологий не вступают в свой собственный до 1981 года, когда IBM ученых в Цюрихе, Швейцария, построил первый сканирующий туннельный микроскоп. Это позволяет нам увидеть один атом путем сканирования крошечные зондов на поверхности кристалла кремния.Nanotechnology is rapidly becoming an interdisciplinary field. Biologists, chemists, physicists and engineers are all involved in the study of substances at the nanoscale. One of the exciting and challenging aspects of the nanoscale is the role that quantum mechanics plays in it. The rules of quantum mechanics are very different from classical physics, which means that the behavior of substances at the nanoscale can sometimes contradict common sense. You can't walk up to a wall and immediately teleport to the other side of it, but at the nanoscale an electron can - it's called electron tunneling. Substances that are insulators, meaning they can't carry an electric charge, in bulk form might become semiconductors when reduced to the nanoscale. Building at the nanoscale allows scientists and engineers to design specific magnetic, thermal and strength properties into any product. This change in behavior is due to an increased relative surface area (producing more chemical reactivity) and the dominance of quantum effects (altering the material's optical, magnetic or electrical properties). Thus, much of nanoscience requires that you forget what you know and start learning all over again. [10


Результаты (русский) 3:

нанотехнология представляет широкий термин, который может сослаться на что - нибудь конструктивных до нанометров одного миллиарда размером метр.иногда называется наука делает очень маленькие, нанотехнологические позволяет изолировать и манипулировать одного атомы, которые ведут себя очень по - разному, чем сгруппировать атомы.ученые через поля сотрудничают, чтобы узнать, как раскрыть потенциал в общих материалов, манипулируя их на молекулярном и атомной уровнях.
рассмотрим историю этого вопроса.идея нанотехнологии родился в 1959 году, когда физик ричард фейнман выступил с лекцией изучить идею строительства вещи в атомной и молекулярной шкалы.он представлял себе всю британскую энциклопедию, написанные на кончике булавки.тем не менее, экспериментальные нанотехнологии не вступил в свою собственную до 1981 года, когда ученые IBM в цюрихе (швейцария), построил первый сканирующий туннельный микроскоп.это позволяет нам видеть одного атома путем сканирования небольшой зонд на поверхности кремниевой кристалл.
нанотехнологии, быстро становится междисциплинарной области.биологов, химиков, физиков и инженеров, участвуют в исследовании вещества на первый.одним из интересных и сложных аспектах решений является роль, которую играет в квантовой механике.по правилам квантовой механики очень отличается от классической физики,что означает, что поведение вещества на наноразмерных может иногда противоречат здравому смыслу.ты не можешь подойти к стене и немедленно телепортироваться на другую сторону, но на первый электронный может - это называется пещерный электронов.вещества, которые являются изоляторов, что означает, что они не могут нести электрический заряд, навалом формы может стать полупроводников, когда до наноразмерных.
здании наноразмерных позволяет ученым и инженерам разрабатывать специальные магнитные, тепловой и прочностные характеристики в любой продукт.это изменение в поведении, является результатом роста относительной площади (производит более химических реактивность) и доминирования квантовые эффекты (изменение материала, оптические, магнитные или электрические свойства)."таким образом,много нанонауки требует, чтобы ты забыла, что ты знаешь, и начала изучать все снова. [10
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Результаты (английский) 1: [копия]
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Nanotechnology is a broad term that can refer to anything engineered down to the nanometer is one-billionth the size of a meter. Sometimes called the science of making things very small, Nanotech provides the ability to isolate and manipulate single atoms that behave very differently than clustered atoms. Scientists on fields collaborate to learn how to unlock the potential in common materials, manipulating them at the molecular and atomic level. Let's take a look at the history of this issue. The idea of nanotechnology was born in 1959, the year when the physicist Richard Feynman gave a lecture, exploring the idea of creating things on the Atomic and molecular level. Он представлял всей энциклопедии Британника, написанные на голову ПИН-кода. Однако экспериментальные нанотехнологий не вступают в свой собственный до 1981 года, когда IBM ученых в Цюрихе, Швейцария, построил первый сканирующий туннельный микроскоп. Это позволяет нам увидеть один атом путем сканирования крошечные зондов на поверхности кристалла кремния. Nanotechnology is rapidly becoming an interdisciplinary field. Biologists, chemists, physicists and engineers are all involved in the study of substances at the nanoscale. One of the exciting and challenging aspects of the nanoscale is the role that quantum mechanics plays in it. The rules of quantum mechanics are very different from classical physics, which means that the behavior of substances at the nanoscale can sometimes contradict common sense. You can't walk up to a wall and immediately teleport to the other side of it, but at the nanoscale an electron can - it's called electron tunneling. Substances that are insulators, meaning they can't carry an electric charge, in bulk form might become semiconductors when reduced to the nanoscale. Building at the nanoscale allows scientists and engineers to design specific magnetic, thermal and strength properties into any product. This change in behavior is due to an increased relative surface area (producing more chemical reactivity) and the dominance of quantum effects (altering the material's optical, magnetic or electrical properties). Thus, much of nanoscience requires that you forget what you know and start learning all over again. [10 Results (Russian) 3:Nanotechnology is a broad term that can refer to anything constructive to one billion nanometers in size meter. sometimes called the science of doing very little, Nanofabrication enables you to isolate and manipulate single atoms that behave very differently than scientists atoms grouped together through the fields collaborate to learn how to unlock the potential in common materials by manipulating them at the molecular and Atomic levels. Let's take a look at the history of this issue. the idea of nanotechnology was born in 1959, the year when the physicist Richard Feynman gave a lecture to explore the idea of building things in Atomic and molecular scale. he represented the British encyclopedia written on the tip of a PIN. Nevertheless, experimental nanotechnology has not entered into their own until the year 1981, when IBM scientists in Zurich (Switzerland), built the first scanning tunneling microscope. it allows us to see one atom by scanning a small probe on the surface of a Silicon crystal. Nanotechnology is rapidly becoming a multidisciplinary area. biologists, chemists, physicists and engineers involved in the study of substances at first. one of the most interesting and complex aspects of the solutions is the role in quantum mechanics. According to the rules of quantum mechanics are very different from classical physics, which means that the behavior of matter on the nanoscale can sometimes preposterous. you can't go up to the wall and immediately teleport to the other side, but on the first electronic can-this is called the cave of electrons. that are insulators, which means that they cannot carry electric charge, in bulk forms may become semiconductors when to nanoscale.building of nanoscale allows scientists and engineers to develop special magnetic, thermal and strength characteristics in any product. This change in behavior is the result of relative growth (produces more chemical reactivity) and dominance of quantum effects (changing material, optical, magnetic or electrical properties). " Thus, many nanoscience requires that you forgot what you know and start learning all over again. [10
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Результаты (английский) 2:[копия]
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Nanotechnology - a broad term that can refer to anything engineered down to the nanometer - billionth the size of a meter. Sometimes referred to as the science of doing things is very small, Nanotech provides the ability to isolate and manipulate single atoms, which behave very differently than clustered atoms. Scientists in the fields together to learn how to unlock the potential of common materials, manipulating them at the level of molecular and atomnoy.Davayte look at the history of this issue. The idea of nanotechnology was born in 1959, when physicist Richard Feynman gave a lecture, exploring the idea of creating things on the atomic and molecular level. He represented the entire Encyclopedia Britannica written on the head of a PIN. However, the experimental nanotechnology did not come into its own until 1981, when IBM scientists in Zurich, Switzerland, built the first scanning tunneling microscope. This allows us to see a single atom by scanning a tiny probe to the surface of the crystal kremniya.Nanotechnology is rapidly becoming an interdisciplinary field. Biologists, chemists, physicists and engineers are all involved in the study of substances at the nanoscale. One of the exciting and challenging aspects of the nanoscale is the role that quantum mechanics plays in it. The rules of quantum mechanics are very different from classical physics, which means that the behavior of substances at the nanoscale can sometimes contradict common sense. You can not walk up to a wall and immediately teleport to the other side of it, but at the nanoscale an electron can - it's called electron tunneling. Substances that are insulators, meaning they can not carry an electric charge, in bulk form might become semiconductors when reduced to the nanoscale. Building at the nanoscale allows scientists and engineers to design specific magnetic, thermal and strength properties into any product. This change in behavior is due to an increased relative surface area (producing more chemical reactivity) and the dominance of quantum effects (altering the material's optical, magnetic or electrical properties). Thus, much of nanoscience requires that you forget what you know and start learning all over again. [10


results (Russian) 3:

Nanotechnology is a broad term that can refer to that - something constructive to one billion nanometers in size metr.inogda called science is making very small, nanotechnology allows you to isolate and manipulate single atoms, which behave very - differently than group atomy.uchenye through the fields together to learn how to unlock the potential of common materials, manipulating them at the molecular and atomic levels.
look at the history of this voprosa.ideya nanotechnology was born in 1959, when physicist Richard Feynman gave a lecture to explore the idea of building things in atomic and molecular shkaly.on imagined the entire encyclopaedia Britannica written on the tip bulavki.tem However, experimental nanotechnology did not come into its own until 1981, when IBM researchers in Zurich (Switzerland), built the first scanning tunneling mikroskop.eto It allows us to see a single atom by scanning a small probe on the surface of a silicon crystal.
nanotechnology is fast becoming an interdisciplinary oblasti.biologov, chemists, physicists and engineers are involved in the study of matter on pervyy.odnim of exciting and challenging aspects of making a role in quantum mehanike.po rules of quantum mechanics is very different from classical physics, which means that the behavior of matter at the nanoscale can sometimes contradict common smyslu.ty can not go to the wall and immediately teleport to the other side, but on the first electron is - it's called the cave of electrons. substances which are insulators, which means that they can not carry an electrical charge, the bulk form may be a semiconductor, when to nanoscale.
building nanoscale enables scientists and engineers to develop special magnetic, thermal and strength properties produkt.eto any change in behavior, It is the result of growth of the relative area (producing more chemical reactivity) and the dominance of quantum effects (changes in material, optical, magnetic or electrical properties). "so, a lot of nanoscience requires that you forget what you know, and started to learn all over again. [10
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Результаты (английский) 3:[копия]
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nanotechnology is a broad term that can refer to what engineering until нанометрового billion the size of the feet. sometimes called the science of making things very little, нанотех provides an opportunity to isolate and manipulate single atoms, which behave very differently than кластеризованный atoms. scientists working in the fields, to find out how to unlock the potential in common materials, manipulating them at the level of molecular and атомной.давайте consider the story of this issue. the idea of nanotechnology was born in 1959, when the physicist richard feynman gave a lecture, is exploring the idea of creating things on an atomic and molecular level. he represented the entire encyclopedia британника written at the head of the pin code. however, experimental nanotechnology into its own until 1981, when ibm scientists in zurich, switzerland, built the first scanning tunneling microscope. this allows us to see one atom by scanning the tiny probes on the surface of the crystal is in a кремния.Nanotechnology until my second field. Biologists, chemists, physicists and engineers are all involved in the study of substances at the nanoscale. one of the exciting and challenging aspects of the nanoscale is the role that quantum mechanics plays in it. the rules of quantum mechanics are very different from classical physics, which means that the behavior of substances at the nanoscale can sometimes contradict common sense. you can "t walk up to a wall and immediately teleport to the other side of it, but at the nanoscale an electron can - it"s called electron tunneling. substances that are insulators, meaning they can"t carry an electric charge, in bulk form might become semiconductors when reduced to the nanoscale. building at the nanoscale allows with and engineers to design specific magnetic, thermal and strength properties in any product. this change in behavior is due to an increased relative surface area (producing more chemical reactivity) and the dominance of quantum effects (altering the material"s optical, magnetic or electrical properties). thus, much of nanoscience requires that you forget what you know and start learning all over again. [10the (russian): 3nanotechnology is a broad term that can refer to anything constructive to nanometers to one billion the size of метр.иногда called science does very little, нанотехнологические allows to isolate and manipulate single atoms, which behave very differently than grouped атомы.ученые through field work, to learn how to unleash the full potential of in common materials, manipulating them at the molecular and atomic levels.consider the story of the вопроса.идея nanotechnology was born in 1959, when the physicist richard feynman gave a lecture to explore the idea of building things in atomic and molecular шкалы.он imagined the entire british encyclopedia, written at the end of булавки.тем less experimental nanotechnology not entered into his own until 1981, when ibm scientists in zurich (switzerland), built the first scan ирующий tunnel микроскоп.это allows us to see one of the atom by scanning a probe on the surface of the silicon crystal.нанот
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