alkenyow, alkanoydow, ha dialkenyow
metals, metalloids and nonmetals
alkenyow oor Engels
alkenyow
Vertalings in die woordeboek Kornies - Engels
metals
Geskatte vertalings
Vertoon algoritmies gegenereerde vertalings
Soortgelyke frases
voorbeelde
Advanced filtering
4396 Kevys yw liwyow dyffrans dre geworra alkenyow erel dhodho. 29.3591
4396 Kevys yw liwyow dyffrans dre geworra alkenyow erel dhodho. 29.3591langbot langbot
alkan ( masculine noun ) alkenyow ( plural ) metol ( masculine noun ) metols ( plural ) metelyow ( plural ) ( )
metallangbot langbot
Elven gymyk yw oksyjen, niver 8 y'n Vosen Beriodek. Y furvell gymyk yw O. An hanow a dheu dhyworth an geryow Greka oxy genes, ow styrya furvya trenken. Oksyjen yw an elven tressa moyha pals y'n Ollvys, wosa hidrojen ha heliom. Y'n Kevreyth Howlek, anusadow yw an Norvys drefen bos kemmys oksyjen y'n ayrgylgh (arwodh sur a vewnans, drefen bos furvyes gans lughwrians). Essensek yw oksyjen drefen y vos rann a DNAha kesstoffow erel posek dhe vewonieth. Yma edhomm dhe pub eneval a oksyjen rag anella. Nans yw a-dro dhe 2.4 bilvil bledhen an nivel oksyjen y'n ayrgylgh a dhallathas sevel y'n Hwarvos Oksidysans Meur. Eghennow nowydh a usyas lughwrians dhe askorra oksyjen. An oksyjen o gwenon dhe'n cyanobakteria hag a vewa kyns. Ny yll den anella pan vo le ages 17% oksyjen y'n ayrgylgh. Mes re oksyjen yw peryllus ynwedh, yn arbennek dhe sedhoryon downvor, neb a yll kavos the bends. Joseph Priestley (1733-1804) a veu an kynsa dhe dhiskrifa oksyjen yn mis Est 1774. Ev a fogellas howlsplann war verkurik oksid (HgO), ha kuntel an gass hag a veu askorrys. Carl Wilhelm Scheele (1742-1786), kymygydh a Sweden, a wrug devnydhya an unn method diw vledhen kyns henna, mes ny skrifas derivas. Yn mis Gwynngala 1774 ev a skrifas lyther dhe Antoine Lavoisier (1743-94) yn Pow Frynk a-dro dhe'y dhiskudhyans. Ny leveris Lavoisier ev dhe dhegemeres an lyther. Priestley a vysytyas Lavoisier yn mis Hedra 1774, ha ny leveris Lavoisier a-dro dhe henna hwath. Mes Lavoisier a gonvedhas diskudhyans oksygen dhe dhisprevi tybieth phlogiston. Lavoisier a brovyas an hanow oxygene rag an elven. Askorrys yw 100 milvil tonnas a oksyjen dhyworth an ayr pub bledhen, po dhyworth ayr linyel po devnydhya ridrow zeolit dhe sugna'n nitrojen dhyworth an ayr. Usys yw an brassa rann a'n oksyjen dhe wul dur (55%) po y'n diwysyans kymyk (25%). Usys yw mynsow le yn klavjiow, dyghtya dowr, fusennow ha treghi alkenyow. An diwysyans kymyk a dhasober oksyjen gans ethylen dhe wul ethylen oksid, hag yn y dro dhe wul lin gorthrew, polyester ha gwiasow dillas. Monow silikon-oksyjen a gomprehend an brassa rann a groghen an Norvys, war-barth oksidow elvennow erel. Oksyjen y'n ayrgylgh ughel a wari rann bosek yn y furv ozon (O3). An ozon a wra sugna dewynnyans ugh-violet, ow kwitha enep an Norvys rag an dewynnyans peryllus ma. Klorofluorokarbonow o kudyn meur dhe'n Nivel Ozon, mes lettyes ens gans an Protokol Montreal yn 1987. Poos atomek yw 15.99, y boynt teudhi yw -218°C ha'y boynt bryjyon yw -183°C. Y dhosedh yw 1.43 gramm an liter. Gass diliw, anvlasus yw oksyjen. Glas yw liw lin oksyjen.
Oxygen is the chemical element with the symbol O and atomic number 8. It is a member of the chalcogen group in the periodic table, a highly reactive nonmetal, and an oxidizing agent that readily forms oxides with most elements as well as with other compounds. Oxygen is Earth's most abundant element, and after hydrogen and helium, it is the third-most abundant element in the universe. At standard temperature and pressure, two atoms of the element bind to form dioxygen, a colorless and odorless diatomic gas with the formula O 2. Diatomic oxygen gas currently constitutes 20.95% of the Earth's atmosphere, though this has changed considerably over long periods of time. Oxygen makes up almost half of the Earth's crust in the form of oxides.[3] Dioxygen provides most of the chemical energy released in combustion[4] and aerobic cellular respiration,[5] and many major classes of organic molecules in living organisms contain oxygen atoms, such as proteins, nucleic acids, carbohydrates, and fats, as do the major constituent inorganic compounds of animal shells, teeth, and bone. Most of the mass of living organisms is oxygen as a component of water, the major constituent of lifeforms. Oxygen is continuously replenished in Earth's atmosphere by photosynthesis, which uses the energy of sunlight to produce oxygen from water and carbon dioxide. Oxygen is too chemically reactive to remain a free element in air without being continuously replenished by the photosynthetic action of living organisms. Another form (allotrope) of oxygen, ozone (O 3), strongly absorbs ultraviolet UVB radiation and the high-altitude ozone layer helps protect the biosphere from ultraviolet radiation. However, ozone present at the surface is a byproduct of smog and thus a pollutant. Oxygen was isolated by Michael Sendivogius before 1604, but it is commonly believed that the element was discovered independently by Carl Wilhelm Scheele, in Uppsala, in 1773 or earlier, and Joseph Priestley in Wiltshire, in 1774. Priority is often given for Priestley because his work was published first. Priestley, however, called oxygen "dephlogisticated air", and did not recognize it as a chemical element. The name oxygen was coined in 1777 by Antoine Lavoisier, who first recognized oxygen as a chemical element and correctly characterized the role it plays in combustion. Common uses of oxygen include production of steel, plastics and textiles, brazing, welding and cutting of steels and other metals, rocket propellant, oxygen therapy, and life support systems in aircraft, submarines, spaceflight and diving.langbot langbot
An Vosen Beriodek yw rol a elvennow kymyk. Y’n Vosen, settyes yw an elvennow yn aray aga niver atomek ow talleth gans niver onan, hidrojen. Niver atomek elven yw an keth tra ages an niver a brotonow yn nuklesen po sprusen an atom na. Y’n Vosen Beriodek renkys yw an elvennow yn periodow ha bagasow. Gelwys yw rew elvennow a-dreus dhe’n vosen period. Yma dhe bub period niver, a 1 dhe 8. Yma dhe Beriod 1 diw elven yn unnik: hidrojen ha heliom. Yma dhe Beriod 2 ha Period 3 eth elven. Hirra yw periodow erel. Yma dhe’n elvennow yn period niverow atomek yn eyl wosa y gila. Versyon savonek an Vosen Beriodek Gelwys yw koloven elvennow yn-nans mosen bagas. Yma 18 bagas y’n vosen beriodek savonek. Yma dhe bub bagas niver: a 1 dhe 18. Elvennow yn bagas a renk aga elektronow yn fordhow hevelep, herwydh an niver a elektronow talvos, hag a re taklow kymyk hevelep dhedha, h.y. i a omdheg yn fordhow hevelep. Rag ensampel, aswonnys yw bagas 18 avel gassys nobyl drefen aga bos gassys oll ha ny wrons kesunya gans atomow erel. Usys yw an vosen beriodek gans kymygydhyon dhe weles patronyow ha perthynyansow ynter elvennow. Yma tri chyf bagas y’n Vosen Beriodek; alkenyow, alkanoydow, ha dialkenyow. Rag ensampel, elvennow a-bell war askel gledh ha war woles an vosen yw an moyha metelyek, hag elvennow war an dheghow a-wartha yw an lyha metelyek. Yma lies patron ha perthynyans aral ynwedh. Devisys veu an vosen beriodek gans an kymygydh a Russi Dmitry Ivanovich Mendeleyev (1834-1907). Dh’y enora, henwys veu elven 101 mendeleviom.
The periodic table, also known as the periodic table of the (chemical) elements, is a tabular display of the chemical elements. It is widely used in chemistry, physics, and other sciences, and is generally seen as an icon of chemistry. It is a graphic formulation of the periodic law, which states that the properties of the chemical elements exhibit a periodic dependence on their atomic numbers. The table is divided into four roughly rectangular areas called blocks. The rows of the table are called periods, and the columns are called groups. Elements from the same column group of the periodic table show similar chemical characteristics. Trends run through the periodic table, with nonmetallic character (keeping their own electrons) increasing from left to right across a period, and from down to up across a group, and metallic character (surrendering electrons to other atoms) increasing in the opposite direction. The underlying reason for these trends is electron configurations of atoms. The first periodic table to become generally accepted was that of the Russian chemist Dmitri Mendeleev in 1869: he formulated the periodic law as a dependence of chemical properties on atomic mass. Because not all elements were then known, there were gaps in his periodic table, and Mendeleev successfully used the periodic law to predict properties of some of the missing elements. The periodic law was recognized as a fundamental discovery in the late 19th century, and it was explained with the discovery of the atomic number and pioneering work in quantum mechanics of the early 20th century that illuminated the internal structure of the atom. With Glenn T. Seaborg's 1945 discovery that the actinides were in fact f-block rather than d-block elements, a recognisably modern form of the table was reached. The periodic table and law are now a central and indispensable part of modern chemistry. The periodic table continues to evolve with the progress of science. In nature, only elements up to atomic number 94 exist; to go further, it was necessary to synthesise new elements in the laboratory. Today, all the first 118 elements are known, completing the first seven rows of the table, but chemical characterisation is still needed for the heaviest elements to confirm that their properties match their positions. It is not yet known how far the table will stretch beyond these seven rows and whether the patterns of the known part of the table will continue into this unknown region. Some scientific discussion also continues regarding whether some elements are correctly positioned in today's table. Many alternative representations of the periodic law exist, and there is some discussion as to whether or not there is an optimal form of the periodic table.langbot langbot
alkan [hanow gorow] alkenyow [hanow liesplek] metol [hanow gorow] metols [hanow liesplek] metelyow [hanow liesplek] [disamstyryans]
metallangbot langbot
**Y hwrav vy skrifa hemma dres dohajydh tomm mis-Hwevrer yn unn vires dhe dreth Godhyan ha’n mor ow palva an tewes. Y hwrav vy aswon hag enora godhvos ha furneth tus genesik neb re veu rennyas an dir dres henedhow ha neb a wra kavos meur dhe dhyski dhyn dro-dhe argerdhow dasvewel. Y hwrav vy aswonn rohow an synsysi-linaja yn gonisogethow Kernow ha genesik neb a wra agan gweres dasjunya dhe spyrys Kernow** Dres milyow a vledhen, y hwrug Mama Kernow ha tus Kernow bywa yn karder a gerensa ha kesparthek. Y hwrug hi sevel yn-bann diworth an mor rag ri dhyn hedh diworth mordonnow heb lett an keynvor efan hag agan klesa diworth tewedhow Atlantek. Y hwrug hi bosa an lesyow rag may hyllsen i ri aga honan dhyn ni rag agan sostena. Y hwrug hi agan gasa palas yn town rag kavos alkenyow res hag aga kenwertha. Y hwrug hi gwitha war dus Kernow, ha bewnans oll omma, kepar dell wra mamm gwitha war hy fleghes. Y hwrug hi ri oll anedhi dhyn. Hag hebdhi, ny yllyn gul travyth. Ha dres milvledhynnyow, y hwrussyn ni gwari rann yn attyli an gerensa ha gwith a dhiskwedh hi dhyn. Y hwrussyn gwitha war agan breder ha hwerydh: an puskes, kosow, enevales, ha’n lesyow. Y hwrussyn ri tre megyans dhedhi rag agan kesfleghes korrbryvek. Y hwrussyn gwitha glan an dowr ha ri spas dhedhi rag hwytha. Re beu tus yowynkka an deylu naturek, hag ytho, kepar dell wra degowogyon trehwelek, a-gynsow y hwrussyn ni ervira mos a-ves war agan honan, krev an mynnas previ agan anserghogeth. Da re beu genen prederi y hyllyn gul genen ni agan honan dre wodhonieth ha materialism. Byttegyns, an vyaj na, hag a wra dalleth gans serghogeth, ha wosa anserghogeth, a wra gorfenna pupprys gans dehweles tre yn unn dhifuna dhe’n kesserghogeth hag a wra agan sostena oll; hag a wrussa agan sostena pupprys. Kyn hwrussyn ni dispresya agan rann, y hwrug Mama Kernow pesya agan bosa ha klesa. Byttegyns, an termyn ma a represent agan dehwelans. Y hwren ni omdhifuna hag yma Mama Kernow orth agan dynnerghi gans byrlans tomm. Y hwra hi minhwarth rag hi dhe wodhvos pupprys y hwrussen ni dehweles. Yn hwir, y hwra hi godhvos y hyllyn ni gul pas yn-rag dhe wari rann diffrans ha moy adhves y’n teylu gans agan skiens nowydh. Y hwra pysi orthyn, an re genys ha’n re tennys omma, a dhasvewa ha gwellhe bywnans. Y hwra hi agan pysi hwytha bywnans yn Kernow, hy fleghes ha tylleryow. Rag enora spyrys Mama Kernow. Ytho, fatell yllyn ni gul hemma, fatell yllyn ni dasjunya gans Mama Kernow? Yma lies fordh, hag oll yw ewn. Mes y hyllyn ni dalleth gans hy henwel hanow ewn. Cornwall yw hanow hag a wrug tus erell hy henwel a-dryv dhe hy heyn. An lostelven, hag a wra styrya “moryon” yn Sowsnek, a wra agan hedhi drehedhes tre. Pan wren ni hy henwel gans hanow ewn, Kernow, y hwra hi agan klywes. Ynwedh, y hyllyn ni kewsel dhedhi yn hy yeth, Kernewek. Y hwra hi konvedhes Sowsnek yn sur, mes nyns yw henna yeth hy holonn. Y hwrug Mama Kernow ri dhyn henwyn tyller Kernewek kelmys dhe essen an spyrys a bub dyller, ha, heb kevrenn dhe’n yeth, ny yllyn ni degemeres hy ro po junya orth an leow ma. Yn grasek, y hwrug synsysi-linaja gwitha war vywnans agan yeth dres an henedhow. Hebdho, martesen y hallsa bos kellys agan kevrenn dhe Mama Kernow bys vykken. Mes agan yeth yw onan yn mysk lies daras dhe agan ertach gonisogethel, kynth yw martesen alhwedh dhe lies anedha. Yth yw agan hwedhlow, agan kanow ha donsyow, agan solempnyansow, agan istori, agan drehevyans hag agan boos, yn mysk taklow erell, gwythiennow rych rag junya gans Mama Kernow. Pan wren ni gwitha war an re ma, y hwren ni gwitha war an lerghow dh’agan Mama. Res yw dhyn gwari agan rann a dhasvewhe an gweres may hyll agan breder ha hwerydh, an gwedh ha’n lesyow, gwari aga rann a witha war agan mamm ha’gan kesfleghes, an ydhyn ha’n enevales. Res yw dhyn bos war sevel orth leverel dhedha fatell godh dhedha oberi. I a dhegemmer dyskansow a Mama Kernow ankoth dhyn. A-der henna, yn sempel y hyllyn ni gul spas may hyllons dasvewa, daswylshe ha gwitha warnan. Y tal dhyn bos war na gemeryn moy a dir es yw res dhyn. Le may hwrug hi ri dhyn tyller rag agan bosa, y kodh dhyn enora agan mamm rag an ro ma, hag omdhiskwedhes gans gras ha kesparthekter. Y kodh dhyn enora an ro a bub les kuntelys ragon, ha surhe y hwren ni ri sostenans dhe’n gweres ynwedh. Ha res yw dhyn dasvewhe gweres agan kemenethow ynwedh. Res yw dhyn aswon agan bos oll fleghes Mama Kernow, genys omma po tennys omma, hag y hwren oll gwari agan rann, pypynag y hwren y gonvedhes po y gara. Y hwren ni gwitha war gweres agan kemeneth pan wren ni gwia kevrennow yntredhon ha hwilas roasow kudhys ha fordhow may hyllons bos degemerys gans an gemeneth. Y hwren ni dasvewhe agan kemenethow pan wren goslowes ha ri bri dhe’n pyth a wra agan breder ha hwerydh rag gwellhe an le mayth yns trigys, yn le beghya hwansow arghasoryon, alusennow ha fondyansow. Y hwren enora agan mamm pan wren ni omdhiskwedhes yn spas a gerensa hag a wra lyftya eseli agan teylu, yn le spas a own, sorr ha breus. Ha’n rann diwettha yn gwrians an gevren yw aswonn nag on ni yn unnik fleghes Mama Kernow, mes yth on ni Mama Kernow hy honan ynwedh. Yth on ni heweledhow an spyrys ma hag yw brassa esson. Agan henwel hy fleghes yw maner a gows ynter an skiansek ha’n spyrysek. Fatell wra treylya an fordh hag ynno y hwren ni kevren gans tus erell, ha gans oll heweledhow Mama Kernow a-dro dhyn, mar kwren ni aswonn agan gnas kevrynnys. Ha pandr’a wra styrya dhe dhehweles tre?
**I write this on a warm February afternoon, overlooking Gwithian beach, watching the sea gently stroke the sand. I recognize and honour the wisdom and knowledge of indigenous and aboriginal peoples, who have been stewards of the land for generations and have much to teach us about regenerative practices, and I acknowledge the contribution of lineage holders in Cornish, indigenous and aboriginal cultures that help us connect with the spirit of Kernow** For thousands of years, Mama Kernow and Cornish people have lived in a loving, reciprocal relationship. She rose up out of the sea to give us respite from the endless waves of the vast ocean and has sheltered us from the Atlantic storms. She has fed us and the animals by feeding the plants, who have given themselves to us to sustain us. She has allowed us to dig deep into her for metals that we need, and that we can trade. She has cared for Cornish people, and all life here, like a mother cares for her children. She has given all of herself to us. And without her, we cannot do anything. And for thousands of years, we also played a role in returning the love and care that she shows us. We did our bit to care for our brothers and sisters: the fish, the forests, the animals, the plants, each other. We returned nutrients to her soil for our microbial siblings. We made sure to keep the waters clean and gave her space to breathe. Humans have always been the youngest of the natural family, and so, like rebellious teenagers, we recently have set out on our own, determined to prove our independence. We have liked to think that with materialism and science we could prove that we could do by ourselves. However, that journey, which starts with dependence, and then independence, always ends with coming home, with a waking up to the interdependence that sustains us. That has always sustained us. Even when we disappeared and neglected our role, Mama Kernow carried on feeding and sheltering us. However, this time now represents our homecoming. We are waking up and Mama Kernow is welcoming us back with a warm embrace. She smiles because she always knew we’d come back. She knows that, in fact, with our new found skills and knowledge, we can step up to play a different, more mature role in the household. She is calling on us, both those born here and those drawn here, to regenerate and enhance life. To breathe life back into Kernow, it’s children and places. To honour the spirit of Mama Kernow. So how can we do this, how can we reconnect with Mama Kernow? There are many ways and each is valid. But we could begin by calling her by her right name. “Cornwall” is the name that others have called her behind her back. The suffix, meaning “foreigners” in Anglo-Saxon, is a “wall” that prevents our reaching home. When we call her by her correct name, Kernow, she hears us. We can also speak to her in her language, Kernewek. Sure, she understands English, but that’s not the language of her heart. Mama Kernow gifted us with Kernewek names reflecting the essence of the spirit of each place, and without our connection to the language, we are unable to receive her gift or connect to each place. Thankfully, lineage holders kept this language alive through the generations. Without it, our connection to Mama Kernow might have been lost forever. Our language is just one of many doorways into our cultural heritage, though perhaps a key to unlocking many of them. Our stories, our songs and dances, our celebrations, our history, our buildings and our food, amongst many other things, are also rich seams of connection back to Mama Kernow. By caring for each of these manifestations of our culture, we take care for our paths of connection. We also must play our part in regenerating the soil so that our brothers and sisters, the trees and the plants, can play their role in caring for our mother, and for our other siblings, like the birds and the animals. We must be wary to not tell them how to do their job. They are receiving instructions from Mama Kernow we are not aware of. So, instead, we can simply create the space for them to regenerate, rewild and care for us. We should be careful to not take more land than she gives us. Where we are given land to feed ourselves, we should honour our mother for her gift to us, showing up with gratitude and reciprocity. We should honour the gift of each plant we harvest to eat, and ensure we are gifting nutrients back to the soil in return. And we must also regenerate our community soil. We must recognise we are all children of Mama Kernow, whether born here or drawn here, and we all playing our role, whether we understand it or not, or love it or not, just like the trees. We care for our community soil when we weave connections between us, seek to uncover each other’s unique gifts and find a way for them to be received by the community. We regenerate our communities when we listen to and value what our brothers and sisters are already doing to make where they live a better place, rather than imposing the whims of funders, charities or institutions. We honour our mother when we show up from a place of love that lifts up our fellow family members, rather than from a place of fear, anger and judgement. And the final step in connection is to realise that we are not just children of Mama Kernow, but we are Mama Kernow herself. We are all manifestations of this spirit that is bigger than us. To call ourselves her children is just a manner of speaking, half way between the scientific and the spiritual. How does it change how we show up with each other, and with all the manifestations of Mama Kernow around us, if we recognise our shared nature? What does it mean to come back home?langbot langbot
Elven gymyk yw arghans, niver 47 y'n Vosen Beriodek. Y furvell gymyk yw Ag. An hanow a dheu dhyworth an ger Latin argentum. Henwys yw lies elven dhyworth hanow gwlas, cita po avon, mes dibarow yw arghans - ev re ros y hanow dhe wlas (Arghantina) hag avon (Rio de la Plata - avon arghans yn Spaynek). Nyns eus rann vewoniethel dhe arghans y'n korf denel. Pur wenonek yw dhe is-organedhow. Holanow hedeuth arghans a serr an kroghen. Kymystyon kresosel a wre gwertha arghans nitrat dhe remova gwenogennow. Y sewenas an remedi, hag usys o bys dhe dhalleth an 20ves kansvledhen. Balweyth re beu kowlwrys rag arghans a-dhia 3000 K.O.K. yn Turki ha Pow Grek. Chif moon arghans yw acanthit (arghans sulfid - Ag2S). Kevys yw yn Pow Meksiko, Bolivi ha Hondouras. Mes an brassa rann a arghans yw kevys dhyworth purhe alkenyow erel, kepar ha kober. Askorrans ollvysel yw 25,000 tonnas an vledhen. Usys o arghans rag bathow mes y hwrons gwannhe yn es. Chif devnydhyow arghans yw an diwysyansow tredanek ha elektronek ha devnydh y'n chi avel daffar lymm, gemmweyth ha gwedrow-mires. Poos atomek arghans yw 107.87, y boynt teudhi yw 962°C ha'y boynt bryjyon yw 2212°C. Y dhosedh yw 10.5kg an liter. Alkan medhel yw arghans gans lenter gnasek arghansek.
Silver is a chemical element with the symbol Ag (from the Latin argentum, derived from the Proto-Indo-European h2erǵ: "shiny" or "white") and atomic number 47. A soft, white, lustrous transition metal, it exhibits the highest electrical conductivity, thermal conductivity, and reflectivity of any metal.[4] The metal is found in the Earth's crust in the pure, free elemental form ("native silver"), as an alloy with gold and other metals, and in minerals such as argentite and chlorargyrite. Most silver is produced as a byproduct of copper, gold, lead, and zinc refining. Silver has long been valued as a precious metal. Silver metal is used in many bullion coins, sometimes alongside gold:[5] while it is more abundant than gold, it is much less abundant as a native metal.[6] Its purity is typically measured on a per-mille basis; a 94%-pure alloy is described as "0.940 fine". As one of the seven metals of antiquity, silver has had an enduring role in most human cultures. Other than in currency and as an investment medium (coins and bullion), silver is used in solar panels, water filtration, jewellery, ornaments, high-value tableware and utensils (hence the term "silverware"), in electrical contacts and conductors, in specialized mirrors, window coatings, in catalysis of chemical reactions, as a colorant in stained glass, and in specialized confectionery. Its compounds are used in photographic and X-ray film. Dilute solutions of silver nitrate and other silver compounds are used as disinfectants and microbiocides (oligodynamic effect), added to bandages, wound-dressings, catheters, and other medical instruments.langbot langbot
alkan [ m ] alkenyow
metal [ s ]langbot langbot
8089 Yma tri chyf bagas y’n Vosen Beriodek; alkenyow, alkanoydow, ha dialkenyow. 16.0683
8089 Yma tri chyf bagas y’n Vosen Beriodek; alkenyow, alkanoydow, ha dialkenyow. 16.0683langbot langbot
/ alkenyow / / /
metalslangbot langbot
alkan masculine noun alkenyow plural metol masculine noun plural metols plural metelyow A metal is a material that, when freshly prepared, polished, or fractured, shows a lustrous appearance, and conducts electricity and heat relatively well. Metals are typically malleable (they can be hammered into thin sheets) or ductile (can be drawn into wires). A metal may be a chemical element such as iron; an alloy such as stainless steel; or a molecular compound such as polymeric sulfur nitride.
metallangbot langbot
/ alkenyow, alkanoydow, ha dialkenyow / / /
metals, metalloids and nonmetalslangbot langbot
alkan, alkenyow [hanow kadarn gorow]
moen olkan metallangbot langbot
Skrifer an lyther ma a borthas kov: "An Eyngogyon re ros dhymm ha lies moy meur a drobel yn 1850 [pan] esen vy ow palas [yn Kaiforni]. My ha bagas a seyth ni a'gan beu palas da, yn unn be dhe'n den kans dollar an jydh an Greghynrudh a dheuth warnan res o dhyn aga batalyas ena my a dhug dIw seth onan yn Berr Gledh a'm garr ha'n re erell yn rann gigek a'n bregh ni a besya tenna dres an nos dien na yn unn ladha ha golia niver meur ternos ni o determys dh'aga ladha oll po merwel pub den ahanan..." Ny wrug hemma hedhi moy a drevesigoryon rag stevya dhe'n west dhe hwithra alkenyow drudh. (Rag treusskrif dien hwilewgh AD2183/10 war agan menegva)
The writer of this letter recalled: “the Indians has given me & many more a great deal of trouble in 1850 I was mining [in California] Me & a company of seven we had good diggings paying to the man one hundred dollars a day the Red Skins come on us we had to fight them there I carried two arrows one in the Left Calf of my Leg & the others in fleshy part of my arm we keep firing all that night killing & wounding a great many the next day we was determined to kill them all or die every man of us...” This didn’t stop more settlers flocking to the west in search of precious metals. (For a full transcript search AD2183/10 on our catalogue)langbot langbot
4934 Mes an brassa rann dhe arghans yw kevys dhyworth purhe alkenyow erel, kepar ha kober. 48.2814
4934 Mes an brassa rann dhe arghans yw kevys dhyworth purhe alkenyow erel, kepar ha kober. 48.2814langbot langbot
Elven gymyk yw owr, niver 79 y'n Vosen Beriodek. Y furvell yw Au. An hanow ha furvell a dheu dhyworth an yeth Latin aurum, ow styrya golow an howldrehevel. Nyns yw rann dhe owr y'n korf denel. Nyns yw gwenonek hwath. Usys yw yn medhegieth dhe wellhe arwodhyow fagel mellow (arthritis). Hanow an dyghtyans ma yw chrysotherapy dhyworth an ger Greka rag owr, chrysos. Usys yw owr gans medhogyon dhens (moy ha 60 tunnas an vledhen) rag lenwel dens, kurunyow, ha dens owr, yn arbennek yn Almayn ha Nihon. Aswonnys o owr a-dhia termyn kynsistorek. Y hwrug bedhow riel cita Ur koth komprehendya gemmweyth owr nans yw 5000 bledhen. Gwrys veu bathow owr pur yn Turki gans Myghtern Croesus yn 550 K.O.K.. Nyns yw owr an alkan moyha tanow, nag an alkan moyha kostek hwath. Yn istori, diskudhyans owr a wrug kawsya lies den dhe movya dhe diredhow nowydh, kepar ha Kaliforni, Ostrali ha'n Klondike. Askorrys yw 2500 tonnas an vledhen, dre vras yn Afrika Dhyghow, an Statys Unys, Kanada ha Ostrali. Usys yw rag bulyon, yn gemmweyth (75% anedha), gweder ha daffar elektronek. Kevys yw liwyow dyffrans dre geworra alkenyow erel dhodho. Owr gwynn yw 90% owr ha 10% nikel, owr rudh (50% owr, 50% kober), owr glas (46% owr, 54% indiom), owr purpur (80% owr, 20% aluminiom), owr gwer (73% owr, 27% arghans) hag owr du (75% owr, 25% kobalt). Owr yw an alkan gans an goveluster (malleability) moyha. Y hyllir gul folennow pur denow anedha, usys yn pennserneth, hag dhe orheri lorellow efanvos. Alkan medhel melyn splann yw owr. Y boos atomek yw 196.96, y boynt teudhi yw 1064°C ha'y boynt bryjyon 2807°C. Y dhosedh yw 19.3 kg an liter.
Gold is a chemical element with the symbol Au (from Latin: aurum) and atomic number 79, making it one of the higher atomic number elements that occur naturally. It is a bright, slightly orange-yellow, dense, soft, malleable, and ductile metal in a pure form. Chemically, gold is a transition metal and a group 11 element. It is one of the least reactive chemical elements and is solid under standard conditions. Gold often occurs in free elemental (native) form, as nuggets or grains, in rocks, veins, and alluvial deposits. It occurs in a solid solution series with the native element silver (as electrum), naturally alloyed with other metals like copper and palladium, and mineral inclusions such as within pyrite. Less commonly, it occurs in minerals as gold compounds, often with tellurium (gold tellurides). Gold is resistant to most acids, though it does dissolve in aqua regia (a mixture of nitric acid and hydrochloric acid), forming a soluble tetrachloroaurate anion. Gold is insoluble in nitric acid, which dissolves silver and base metals, a property long used to refine gold and confirm the presence of gold in metallic substances, giving rise to the term acid test. Gold also dissolves in alkaline solutions of cyanide, which are used in mining and electroplating. Gold dissolves in mercury, forming amalgam alloys, and as the gold acts simply as a solute, this is not a chemical reaction. A relatively rare element,[6][7] gold is a precious metal that has been used for coinage, jewelry, and other arts throughout recorded history. In the past, a gold standard was often implemented as a monetary policy. Still, gold coins ceased to be minted as a circulating currency in the 1930s, and the world gold standard was abandoned for a fiat currency system after 1971.langbot langbot
alkan [ hanow gorow ] alkenyow [ hanow liesek / hanow liesplek ] metol [ hanow gorow ] [ hanow liesek / hanow liesplek ] metols [ hanow liesek / hanow liesplek ] metelyow A metal is a material that, when freshly prepared, polished, or fractured, shows a lustrous appearance, and conducts electricity and heat relatively well. Metals are typically malleable (they can be hammered into thin sheets) or ductile (can be drawn into wires). A metal may be a chemical element such as iron; an alloy such as stainless steel; or a molecular compound such as polymeric sulfur nitride.
metallangbot langbot
alkan, alkenyow (hanow gorow)
moen olkan metallangbot langbot
alkenyow
alkenyow HANOW LIESPLEK | PLURAL NOUNlangbot langbot
alkan, alkenyow
(hkg.) moen olkan metallangbot langbot
8495 Yn istori, usys o fluorspar (kalsiom fluorid, CaF 2 ) dhe weres teudhi alkenyow ha trenkravya gweder. 29.0478
8495 Yn istori, usys o fluorspar (kalsiom fluorid, CaF 2 ) dhe weres teudhi alkenyow ha trenkravya gweder. 29.0478langbot langbot
6017 Pyth koynt yw galliom dhe lehe orth treudhi, dyffrans dhe alkenyow erel. 26.4081
6017 Pyth koynt yw galliom dhe lehe orth treudhi, dyffrans dhe alkenyow erel. 26.4081langbot langbot
28 sinne gevind in 6 ms. Hulle kom uit baie bronne en word nie nagegaan nie.