-
1 Kirkendall effect
Электрохимия: эффект Киркендалла (диффузия в твёрдых металлах и сплавах) -
2 Kirkendall effect
физ.; мет. эффект Киркендаля -
3 Kirkendall effect
фтт эффект Киркендалла -
4 Kirkendall effect
фтт. эффект КиркендаллаThe New English-Russian Dictionary of Radio-electronics > Kirkendall effect
-
5 Kirkendall effect
Englsh-Russian aviation and space dictionary > Kirkendall effect
-
6 effect
1) эффект; явление || производить эффект; порождать явление2) влияние; (воз)действие || влиять; оказывать влияние; (воз)действовать; оказывать воздействие3) pl тлв вчт спецэффекты•- ac Hall effect
- ac Josephson effect
- acoustical Faraday effect
- acoustic Doppler effect
- acoustoelectric effect
- acoustoresistive effect
- ambisonic effect
- anisotropic effect
- anode effect
- anomalous Hall effect
- anomalous Sasaki-Shibuya effect
- anomalous Zeeman effect
- antenna effect
- aspect effect
- atomic photoelectric effect
- Auger effect
- avalanche effect
- background effect
- back-porch effect
- back stress effect
- back-wall photoelectric effect
- Barkhausen effect
- Barnett effect
- barrier effect
- base-robbing effect
- binaural effect
- blackout effect
- blindness effect
- Boers effect
- Bragg effect
- Bridgman effect
- bulk effect
- Burstein-Moss effect
- butterfly effect
- capture effect
- Casimir effect
- Cerenkov effect
- channel effect
- charge-storage effect
- cocktail-party effect
- collector-follower effect
- colossal magnetoresistive effect
- comet effect
- Compton effect
- conductivity modulation effect
- contour effect
- conventional skin effect
- converse effect
- converse magnetostrictive effect
- Cooper effect
- Corbino effect
- corner effect
- corona effect
- Cotton effect
- Cotton-Mouton effect
- cryptomagnetic effect
- dc Hall effect
- dc Josephson effect
- dead-end effect
- Debye effect
- Debye-Sears effect
- delayed-sidetone effect
- Dellinger effect
- Dember effect
- dephasing effect
- Destriau effect
- digital multi-effects - domino effect
- Doppler effect
- dynamic pinch effect
- dynamic stereoscopic effect
- dynatron effect
- Early effect
- echo effect
- edge effect
- Edison effect
- Einstein-de Haas effect
- elastooptical effect
- elastoresistive effect
- electroacoustic effect
- electrooptical effect
- electrooptical Kerr effect
- electro-opto-acoustical effect
- electroosmotic effect
- electrophonic effect
- electrophoretic effect
- electroresistive effect
- electrostatic Kerr effect
- electrostrictive effect
- emitter dip effect
- emitter push effect
- end effect
- equatorial Kerr effect
- equatorial magnetooptical Kerr effect
- Esaki effect
- Ettingshausen effect
- external photoelectric effect
- extrinsic photoconductive effect
- extrinsic photoelectric effect
- Faraday effect
- ferroelectric effect
- ferromagnetic proximity effect
- field effect
- field-rejection effect
- fixed effects
- flexoelectric effect
- flicker effect
- flywheel effect
- forbidden effect
- fractional quantum Hall effect
- fringe effect
- galvanomagnetic effects
- galvanothermomagnetic effects
- gap effect
- Gauss effect
- giant Hall effect
- giant magnetoimpedance effect
- giant magnetoresistive effect
- granularity effect
- greenhouse effect
- Gudden-Pohl effect
- Gunn effect
- gyromagnetic effects
- Haas effect
- Hall effect
- Hallwachs effect
- Hanle effect
- heating effect of current
- height effect
- hole-burning effect
- hyperfine effect
- image effect
- inlay effect
- interface effects
- internal photoelectric effect
- intrinsic photoconductive effect
- invar effect
- inverse effect
- inverse Faraday effect
- inverse photoelectric effect
- inverse piezoelectric effect
- island effect
- isotope effect
- Jahn-Teller effect
- Josephson effect
- Joule effect
- junction edge effect
- Kapitza-Dirac effect
- Kerr effect
- Kirk effect
- Kirkendall effect
- Kundt effect
- lagged effect
- laser effect
- Leduc-Righi effect
- linear electrooptic effect
- longitudinal galvanothermomagnetic effect
- longitudinal Kerr effect
- longitudinal magnetoresistive effect
- longitudinal thermomagnetic effect
- long-line effect
- long-run effect
- Lorentz effect
- Lossev effect
- Luxemburg effect
- Maggi-Righi-Leduc effect
- magnetoelastic effect
- magnetoelectric effect
- magnetogalvanic effects
- magnetoimpedance effect
- magnetooptical Kerr effect
- magnetoresistive effect
- magnetostrictive effect
- magnetron effect
- Malter effect
- Meisner effect
- meridional Kerr effect
- meridional magnetooptical Kerr effect
- metamagnetic effect
- metamagnetoelastic effect
- microphonic effect
- microwave biological effect
- Miller effect
- moiré effect
- Mössbauer effect
- motor effect
- multipactor effect
- multipath effect
- multi-valued Sasaki-Shibuya effect
- mutual coupling effect on input impedance
- mutual coupling effect on radiation pattern
- negative resistance effect
- Nernst effect
- Nernst-Ettingshausen effect
- night effect
- normal Hall effect
- normal Zeeman effect
- Nottingham effect
- Ovshinsky effect
- pairing effect
- parallel pumping instability effect
- parallel pumping spin wave instability effect
- Pashen-Back effect
- peak effect
- Peltier effect
- photocapacitor effect
- photoconductive effect
- photodielectric effect
- photodiffusion effect
- photoelastic effect
- photoelectret effect
- photoelectric effect
- photoelectromagnetic effect
- photoemissive effect
- photomagnetic effect
- photomagnetoelectric effect
- photopiezoelectric effect
- photothermoelectric effect
- photovoltaic effect
- picket-fence effect
- piezoelectric effect
- piezomagnetic effect
- piezomagnetoelectric effect
- piezooptical effect
- piezoresistance effect
- piezoresistive effect
- pinch effect
- pinch-in effect
- Pockels effect
- polar Kerr effect
- polar magnetooptical Kerr effect
- Pool-Frenkel effect
- print-through effect
- proximity effect
- pyroelectric effect
- pyromagnetic effect
- quadraphonic effect
- quadro effect
- quadratic magnetooptical effect
- quantized Hall effect
- quantum Hall effect
- Raman effect
- Ramsauer effect
- random effect
- rate effect
- red eyes effect
- Renner effect
- Richardson effect
- Ridley-Watkins-Hilsum-Gunn effect
- Righi-Leduc effect
- Rijke effect
- ripple effect
- ripple-through effect
- Rocky-Point effect
- S-effect
- Sasaki-Shibuya effect
- Schottky effect
- schrot effect
- screening effect
- seasonal effect
- Seebeck effect
- shore effect
- short-channel effect
- short-run effect
- shot effect
- side effect
- sidewalk effect
- Silsbee effect
- size effect
- skin effect
- sound effects
- space-charge effect
- special effects
- speckle effect
- spillover effect
- Stark effect
- stereo effect
- stereophonic effect
- stereoscopic effect
- Stiles-Crawford effect
- stimulated Raman effect
- stirring effect
- storage effect
- stroboscopic effect
- Stroop effect
- Suhl effect
- superparamagnetic effect
- surface-charge effect
- surface field effect
- tensoresistive effect
- tertiary pyroelectric effect
- thermal effect
- thermoelectric effect
- thermogalvanomagnetic effect
- thermomagnetic effect
- Thomson effect
- threshold effect
- transferred-electron effect
- transverse galvanothermomagnetic effect
- transverse Hall effect
- transverse Kerr effect
- transverse magnetoresistive effect
- transverse Nernst-Ettingshausen effect
- transverse pumping instability effect
- transverse pumping spin wave instability effect
- transverse thermogalvanomagnetic effect
- transverse thermomagnetic effect
- trap effect
- trapping effect
- tunnel effect
- tunneling effect
- turnpike effect
- twisted nematic effect
- Tyndall effect
- Venetian blind effect
- vertical component effect
- Villari effect
- Voigt effect
- Volta effect
- wall effect
- Webster effect
- Wertheim effect
- Wiedemann effect
- Wiegand effect
- window effect
- word superiority effect
- X-ray photoelectric effect
- Zeeman effect
- Zener effect
- ΔE-effect -
7 effect
1) эффект; явление || производить эффект; порождать явление2) влияние; (воз)действие || влиять; оказывать влияние; (воз)действовать; оказывать воздействие3) pl.; тлв.; вчт. спецэффекты•- ac Hall effect
- ac Josephson effect
- acoustic Doppler effect
- acoustical Faraday effect
- acoustoelectric effect
- acoustoresistive effect
- ambisonic effect
- anisotropic effect
- anode effect
- anomalous Hall effect
- anomalous Sasaki-Shibuya effect
- anomalous Zeeman effect
- antenna effect
- aspect effect
- atomic photoelectric effect
- Auger effect
- avalanche effect
- back stress effect
- background effect
- back-porch effect
- back-wall photoelectric effect
- Barkhausen effect
- Barnett effect
- barrier effect
- base-robbing effect
- binaural effect
- blackout effect
- blindness effect
- Boers effect
- Bragg effect
- Bridgman effect
- bulk effect
- Burstein-Moss effect
- butterfly effect
- capture effect
- Casimir effect
- Cerenkov effect
- channel effect
- charge-storage effect
- cocktail-party effect
- collector-follower effect
- colossal magnetoresistive effect
- comet effect
- Compton effect
- conductivity modulation effect
- contour effect
- conventional skin effect
- converse effect
- converse magnetostrictive effect
- Cooper effect
- Corbino effect
- corner effect
- corona effect
- Cotton effect
- Cotton-Mouton effect
- cryptomagnetic effect
- dc Hall effect
- dc Josephson effect
- dead-end effect
- Debye effect
- Debye-Sears effect
- delayed-sidetone effect
- Dellinger effect
- Dember effect
- dephasing effect
- Destriau effect
- digital multi-effects
- digital video effect
- direct piezoelectric effect
- domino effect
- Doppler effect
- dynamic pinch effect
- dynamic stereoscopic effect
- dynatron effect
- Early effect
- echo effect
- edge effect
- Edison effect
- effect of intermediate valence
- Einstein-de Haas effect
- elastooptical effect
- elastoresistive effect
- electroacoustic effect
- electrooptical effect
- electrooptical Kerr effect
- electro-opto-acoustical effect
- electroosmotic effect
- electrophonic effect
- electrophoretic effect
- electroresistive effect
- electrostatic Kerr effect
- electrostrictive effect
- emitter dip effect
- emitter push effect
- end effect
- equatorial Kerr effect
- equatorial magnetooptical Kerr effect
- Esaki effect
- Ettingshausen effect
- external photoelectric effect
- extrinsic photoconductive effect
- extrinsic photoelectric effect
- Faraday effect
- ferroelectric effect
- ferromagnetic proximity effect
- field effect
- field-rejection effect
- fixed effects
- flexoelectric effect
- flicker effect
- flywheel effect
- forbidden effect
- fractional quantum Hall effect
- fringe effect
- galvanomagnetic effects
- galvanothermomagnetic effects
- gap effect
- Gauss effect
- giant Hall effect
- giant magnetoimpedance effect
- giant magnetoresistive effect
- granularity effect
- greenhouse effect
- Gudden-Pohl effect
- Gunn effect
- gyromagnetic effects
- Haas effect
- Hall effect
- Hallwachs effect
- Hanle effect
- heating effect of current
- height effect
- hole-burning effect
- hyperfine effect
- image effect
- inlay effect
- interface effects
- internal photoelectric effect
- intrinsic photoconductive effect
- invar effect
- inverse effect
- inverse Faraday effect
- inverse photoelectric effect
- inverse piezoelectric effect
- island effect
- isotope effect
- Jahn-Teller effect
- Josephson effect
- Joule effect
- junction edge effect
- Kapitza-Dirac effect
- Kerr effect
- Kirk effect
- Kirkendall effect
- Kundt effect
- lagged effect
- laser effect
- Leduc-Righi effect
- linear electrooptic effect
- longitudinal galvanothermomagnetic effect
- longitudinal Kerr effect
- longitudinal magnetoresistive effect
- longitudinal thermomagnetic effect
- long-line effect
- long-run effect
- Lorentz effect
- Lossev effect
- Luxemburg effect
- Maggi-Righi-Leduc effect
- magnetoelastic effect
- magnetoelectric effect
- magnetogalvanic effects
- magnetoimpedance effect
- magnetooptical Kerr effect
- magnetoresistive effect
- magnetostrictive effect
- magnetron effect
- Malter effect
- Meisner effect
- meridional Kerr effect
- meridional magnetooptical Kerr effect
- metamagnetic effect
- metamagnetoelastic effect
- microphonic effect
- microwave biological effect
- Miller effect
- moiré effect
- Mössbauer effect
- motor effect
- multipactor effect
- multipath effect
- multi-valued Sasaki-Shibuya effect
- mutual coupling effect on input impedance
- mutual coupling effect on radiation pattern
- negative resistance effect
- Nernst effect
- Nernst-Ettingshausen effect
- night effect
- normal Hall effect
- normal Zeeman effect
- Nottingham effect
- Ovshinsky effect
- pairing effect
- parallel pumping instability effect
- parallel pumping spin wave instability effect
- Pashen-Back effect
- peak effect
- Peltier effect
- photocapacitor effect
- photoconductive effect
- photodielectric effect
- photodiffusion effect
- photoelastic effect
- photoelectret effect
- photoelectric effect
- photoelectromagnetic effect
- photoemissive effect
- photomagnetic effect
- photomagnetoelectric effect
- photopiezoelectric effect
- photothermoelectric effect
- photovoltaic effect
- picket-fence effect
- piezoelectric effect
- piezomagnetic effect
- piezomagnetoelectric effect
- piezooptical effect
- piezoresistance effect
- piezoresistive effect
- pinch effect
- pinch-in effect
- Pockels effect
- polar Kerr effect
- polar magnetooptical Kerr effect
- Pool-Frenkel effect
- print-through effect
- proximity effect
- pyroelectric effect
- pyromagnetic effect
- quadraphonic effect
- quadratic magnetooptical effect
- quadro effect
- quantized Hall effect
- quantum Hall effect
- Raman effect
- Ramsauer effect
- random effect
- rate effect
- red eyes effect
- Renner effect
- Richardson effect
- Ridley-Watkins-Hilsum-Gunn effect
- Righi-Leduc effect
- Rijke effect
- ripple effect
- ripple-through effect
- Rocky-Point effect
- S effect
- Sasaki-Shibuya effect
- Schottky effect
- schrot effect
- screening effect
- seasonal effect
- Seebeck effect
- shore effect
- short-channel effect
- short-run effect
- shot effect
- side effect
- sidewalk effect
- Silsbee effect
- size effect
- skin effect
- sound effects
- space-charge effect
- special effects
- speckle effect
- spillover effect
- Stark effect
- stereo effect
- stereophonic effect
- stereoscopic effect
- Stiles-Crawford effect
- stimulated Raman effect
- stirring effect
- storage effect
- stroboscopic effect
- Stroop effect
- Suhl effect
- superparamagnetic effect
- surface field effect
- surface-charge effect
- tensoresistive effect
- tertiary pyroelectric effect
- thermal effect
- thermoelectric effect
- thermogalvanomagnetic effect
- thermomagnetic effect
- Thomson effect
- threshold effect
- transferred-electron effect
- transverse galvanothermomagnetic effect
- transverse Hall effect
- transverse Kerr effect
- transverse magnetoresistive effect
- transverse Nernst-Ettingshausen effect
- transverse pumping instability effect
- transverse pumping spin wave instability effect
- transverse thermogalvanomagnetic effect
- transverse thermomagnetic effect
- trap effect
- trapping effect
- tunnel effect
- tunneling effect
- turnpike effect
- twisted nematic effect
- Tyndall effect
- Venetian blind effect
- vertical component effect
- Villari effect
- Voigt effect
- Volta effect
- wall effect
- Webster effect
- Wertheim effect
- Wiedemann effect
- Wiegand effect
- window effect
- word superiority effect
- X-ray photoelectric effect
- Zeeman effect
- Zener effectThe New English-Russian Dictionary of Radio-electronics > effect
-
8 effect
эффект, влияние; ( воз) действие; результат; pl. явления; производить, вызывать, выполнять3-D effect — пространственный [стереоскопический] эффект
come into ground effect — попадать в зону [область] влияния (близости) земли
effect of model support — влияние державки [системы подвески] модели
effect of prelaunch environment — ркт. влияние предпусковых (внешних) условий
out of ground effect — без [при отсутствии] влияния (близости) земли
structural effects of impact — прочность [поведение конструкции] при ударных нагрузках
-
9 effect
1. действие2. эффект3. влияние4. результат, следствие6. производить7. вызыватьablation effect — влияние абляции, эффект абляции
after effect — последействие
anisotropic effect — эффект анизотропии
area effect — влияние поверхности
ballistic effect — баллистический эффект
Barkhausen effect — эффект Баркгаузена (скачкообразное изменение намагниченности ферромагнетиков при непрерывном изменении внешних условий)
Bauschinger effect — эффект Баушингера (уменьшениие сопротивления кристаллического материала пластической деформации после предварительной малой пластической деформации противоположного знака)
binding effect — эффект связывания, связывающее [сцепляющее] действие
Cherenkov effect — эффект [свечение] Черенкова (свечение, вызываемое в прозрачной среде заряженной частицей, которая движется со скоростью, превышающей фазовую скорость распространения света в этой среде)
corrosion effect — воздействие коррозии
creep effect — влияние ползучести
crevice effect — щелевой эффект
cross-linking effect — влияние структурирования
cryogenic radiation effect — влияние облучения при криогенных температурах
Dember effect — эффект Дембера, фотодиффузионный эффект
diamagnetic effect — диамагнитный [магнитный поляризационный] эффект
dielectric relaxation effect — диэлектрический релаксационный эффект
diffraction effect — эффект дифракции
effect of aging — эффект старения
effect of humidity — влияние влажности
effect of prelaunch environmental — влияние предпусковых условий
effect of quenching — влияние закалки
effect of resin content — влияние содержания смолы
effect of shrinkage — влияние усадки
elastooptic effect — упругооптический эффект
electrochemical effect — электрохимический эффект
electrooptical effect — электрооптический эффект
elevated-temperature effect — влияние повышенной температуры
embrittling effect — влияние охрупчивания
environmental effect — влияние [воздействие] окружающей среды
erosion effect — влияиие эрозии
external Rehbinder effect — внешний эффект Ребиндера, внешний адсорбционный эффект понижения прочности
Faraday effect — эффект Фарадея (вращение плоскости поляризации света при распространении его в веществе вдоль линий магнитного поля)
galvanomagnetic effect — гальваномагнитный эффект
gettering effect — 1) эффект генерирования 2) газопоглощение, геттерирование
Hall effect — эффект Холла (возникновение поперечной разности потенциалов при помещении проводника с постоянным током в магнитное поле)
heat effect — тепловой эффект, теплотворная способность
high-temperature effect — влияние высокой температуры
inhibiting effect — задерживающее влияние, антикоррозионное [антиокислительное] действие
internal photoelectric effect — внутренний фотоэффект
internal Rehbinder effect — внутренний эффект Ребиндера, внутренний адсорбционный эффект понижения прочности
irradiation effect — влияние облучения
isotropic effect — изотропный эффект
Johnson effect — эффект Джонсона
Kaiser effect — эффект Кайзера ( акустоэмиссионный эффект памяти материалов)
Kelvin effect — поверхностный эффект, скин-эффект
Kirkendall effect — эффект Киркендалла (смещение границы раздела двух веществ при различии диффузионных потоков из одного вещества в другое; из-за разности этих потоков вблизи границы раздела появляется пористость)
low-temperature effect — влияние низкой температуры
magnetoelastic effect — магнитоупругий эффект, магнитострикция
magnetoelectric effect — магнитоэлектрический эффект
magnetooptical effect — магнитооптический эффект
magnetoresistive effect — гальваномагнитный эффект, эффект Холла
moire effect — муаровый эффект
moisture effect — влияние влажности
Mossbauer effect — эффект Мессбауэра ( резонансное испускание и поглощение гамма-лучей без отдачи)
neutron irradiation effect — влияние нейтронного облучения
notch effect — влияние [эффект] надреза ( при механических испытаниях)
optical Stark effect — оптический эффект Штарка (расщепление спектральных линий атомов и молекул, попавших в сильное электрическое поле)
orientation effect — ориентационный эффект, влияние степени ориентации
packing effect — степень упаковки
Peltier effect — явление [эффект] Пельтье, обратный термоэлектрический эффект
photoelastic effect — фотоупругий эффект
piezoelectric effect — пьезоэлектрический эффект
piezooptical effect — пьезооптический эффект
processing effect — результаты обработки; влияние технологии
quenching effect — влияние закалки
radiation effect — действие излучения, влияние облучения; действие проникающей радиации
radiation-hardening effect — эффект упрочнения облучением
radiative effect — радиационный эффект
Raman effect — комбинационное рассеяние света
re-entry effect — влияние входа в плотную атмосферу
Rehbinder effect — эффект Ребиндера, адсорбционный эффект понижения прочности
reinforcing effect — влияние армирования
repeated stress effect — действие повторных нагрузок
shielding effect — эффект теплозащиты [экранирования]
shrinkage effect — эффект усадки
size effect — 1) масштабный фактор [эффект] 2) влияние аппретирования
skin effect — поверхностный эффект, скин-эффект
Soret effect — эффект Соре, термодиффузия
space environmental effect — влияние космических условий
space radiation effect — влияние космического излучения
Stark effect — эффект Штарка (расщепление и сдвиг спектральных линий атомов и молекул во внешнем электрическом поле)
static fatigue effect — действие статической усталости
strengthening effect — упрочняющий эффект, эффект упрочнения
stress concentration effect — влияние концентрации напряжений
temperature effect — влияние температуры, температурный эффект
thermal effect — тепловой [термический] эффект
thermoelastic effect — термоупругий эффект
thermomagnetic effect — термомагнитный эффект
transpiration cooling effect — эффективность испарительного охлаждения
tunneling effect — туннельный эффект
vibration effect — воздействие вибраций
Zeeman effect — эффект [явление] Зеемана ( расщепление линий атомных спектров в магнитном поле)
zero g effect — влияние невесомости
English-Russian dictionary of aviation and space materials > effect
См. также в других словарях:
Kirkendall effect — The Kirkendall effect is the migration of markers that occurs when markers are placed at the interface between an alloy and a metal, and the whole is heated to a temperature where diffusion is possible; the markers will move towards the alloy… … Wikipedia
Kirkendall-Effekt — Der Kirkendall Effekt besteht darin, dass sich bei genügend hoher Temperatur bei zwei aneinanderliegenden festen Phasen das Volumen der einen Phase verringert, während sich das Volumen der anderen Phase vergrößert. Der Effekt wird besonders gut… … Deutsch Wikipedia
Ernest Kirkendall — (born 1914 in East Jordan, Michigan; died August 22, 2005) was an American chemist and metallurgist. He is known for his 1947 discovery of the Kirkendall effect. Life and works He was raised in Highland Park, Michigan and received his bachelor s… … Wikipedia
Scientific phenomena named after people — This is a list of scientific phenomena and concepts named after people (eponymous phenomena). For other lists of eponyms, see eponym. NOTOC A* Abderhalden ninhydrin reaction Emil Abderhalden * Abney effect, Abney s law of additivity William de… … Wikipedia
List of effects — This is a list of names for observable phenonema that contain the word effect, amplified by reference(s) to their respective fields of study. #*3D audio effect (audio effects)A*Accelerator effect (economics) *Accordion effect (physics) (waves)… … Wikipedia
List of physics topics F-L — NOTOC A B C D E F G H I J K L M N O P Q R S T U V W X Y Z> F * Famous physicists; see list of physicistsFa* Faraday cage * Faraday constant * Faraday s law of electrolysis * Faraday s law of induction * Faraday, Michael * Fahrenheit * Fahrenheit … Wikipedia
Ostwald ripening — Basic schematic of the Ostwald ripening process Ostwald ripening is an observed phenomenon in solid solutions or liquid sols which describes the change of an inhomogeneous structure over time. In other words, over time, small crystals or sol… … Wikipedia
Current crowding — (also current crowding effect, or CCE) is a nonhomogenous distribution of current density through a conductor or semiconductor, especially at the vicinity of the contacts and over the PN junctions. Current crowding is one of the limiting factors… … Wikipedia
Intermetallics — or intermetallic compounds is a term that is used in a number of different ways. Most commonly it refers to solid state phases involving metals. There is a research definition adhered to generally in scientific publications, and a wider common… … Wikipedia
Atomic diffusion — is a process whereby the random thermally activated hopping of atoms in a solid results in the net transport of atoms. For example, helium atoms inside a balloon can diffuse through the wall of the balloon and escape, resulting in the balloon… … Wikipedia
History of Missouri — The history of Missouri begins with France claiming the territory and selling it to the U.S. in 1803. Statehood came following a compromise in 1820. Missouri grew rapidly until the Civil War, which saw numerous small battles and control by the… … Wikipedia