A period 2 element is one of the chemical elements in the second row (or period) of the periodic table of the chemical elements. The periodic table is laid out in rows to illustrate recurring (periodic) trends in the chemical behavior of the elements as their atomic number increases; a new row is started when chemical behavior begins to repeat, creating columns of elements with similar properties.
Period 2 is the first period in the periodic table from which periodic trends can be drawn. Period 1, which only contains two elements (hydrogen and helium), is too small to draw any conclusive trends from it, especially because the two elements behave nothing like other s-block elements.[1][2] Period 2 has much more conclusive trends. For all elements in period 2, as the atomic number increases, the atomic radius of the elements decreases, the electronegativity increases, and the ionization energy increases.[3]
Period 2 only has two metals (lithium and beryllium) of eight elements, less than for any subsequent period both by number and by proportion. It also has the most number of nonmetals, namely five, among all periods. The elements in period 2 often have the most extreme properties in their respective groups; for example, fluorine is the most reactive halogen, neon is the most inert noble gas,[4] and lithium is the least reactive alkali metal.[5]
Lithium (Li) is an alkali metal with atomic number 3, occurring naturally in two isotopes: 6Li and 7Li. The two make up all natural occurrence of lithium on Earth, although further isotopes have been synthesized. In ionic compounds, lithium loses an electron to become positively charged, forming the cation Li+. Lithium is the first alkali metal in the periodic table,[note 1] and the first metal of any kind in the periodic table.[note 2] At standard temperature and pressure, lithium is a soft, silver-white, highly reactive metal. With a density of 0.564 g⋅cm−3, lithium is the lightest metal and the least dense solid element.[6]
Lithium is one of the few elements synthesized in the Big Bang.
Lithium is the 31st most abundant element on earth,[7] occurring in concentrations of between 20 and 70 ppm by weight,[8] but due to its high reactivity it is only found naturally in compounds.[8]
Beryllium (Be) is the chemical element with atomic number 4, occurring in the form of 9Be. At standard temperature and pressure, beryllium is a strong, steel-grey, light-weight, brittle, bivalentalkaline earth metal, with a density of 1.85 g⋅cm−3.[12] It also has one of the highest melting points of all the light metals. Beryllium's most common isotope is 9Be, which contains 4 protons and 5 neutrons. It makes up almost 100% of all naturally occurring beryllium and is its only stable isotope; however other isotopes have been synthesised. In ionic compounds, beryllium loses its two valence electrons to form the cation, Be2+.
Due to its stiffness, light weight, and dimensional stability over a wide temperature range, beryllium metal is used in as a structural material in aircraft, missiles and communication satellites.[12] It is used as an alloying agent in beryllium copper, which is used to make electrical components due to its high electrical and heat conductivity.[13] Sheets of beryllium are used in X-ray detectors to filter out visible light and let only X-rays through.[12] It is used as a neutron moderator in nuclear reactors because light nuclei are more effective at slowing down neutrons than heavy nuclei.[12] Beryllium's low weight and high rigidity also make it useful in the construction of tweeters in loudspeakers.[14]
Beryllium and beryllium compounds are classified by the International Agency for Research on Cancer as Group 1 carcinogens; they are carcinogenic to both animals and humans.[15] Chronic berylliosis is a pulmonary and systemicgranulomatous disease caused by exposure to beryllium. Between 1% – 15% of people are sensitive to beryllium and may develop an inflammatory reaction in their respiratory system and skin, called chronic beryllium disease or berylliosis. The body's immune system recognises the beryllium as foreign particles and mounts an attack against them, usually in the lungs where they are breathed in. This can cause fever, fatigue, weakness, night sweats and difficulty in breathing.[16]
Boron (B) is the chemical element with atomic number 5, occurring as 10B and 11B. At standard temperature and pressure, boron is a trivalentmetalloid that has several different allotropes. Amorphous boron is a brown powder formed as a product of many chemical reactions. Crystalline boron is a very hard, black material with a high melting point and exists in many polymorphs: Two rhombohedral forms, α-boron and β-boron containing 12 and 106.7 atoms in the rhombohedral unit cell respectively, and 50-atom tetragonal boron are the most common. Boron has a density of 2.34−3.[17] Boron's most common isotope is 11B at 80.22%, which contains 5 protons and 6 neutrons. The other common isotope is 10B at 19.78%, which contains 5 protons and 5 neutrons.[18] These are the only stable isotopes of boron; however other isotopes have been synthesised. Boron forms covalent bonds with other nonmetals and has oxidation states of 1, 2, 3 and 4.[19][20][21]
Boron does not occur naturally as a free element, but in compounds such as borates. The most common sources of boron are tourmaline, borax, Na2B4O5(OH)4·8H2O, and kernite, Na2B4O5(OH)4·2H2O.[17] it is difficult to obtain pure boron. It can be made through the magnesiumreduction of boron trioxide, B2O3. This oxide is made by melting boric acid, B(OH)3, which in turn is obtained from borax. Small amounts of pure boron can be made by the thermal decomposition of boron bromide, BBr3, in hydrogen gas over hot tantalum wire, which acts as a catalyst.[17] The most commercially important sources of boron are: sodium tetraborate pentahydrate, Na2B4O7 · 5H2O, which is used in large amounts in making insulating fiberglass and sodium perboratebleach; boron carbide, a ceramic material, is used to make armour materials, especially in bulletproof vests for soldiers and police officers; orthoboric acid, H3BO3 or boric acid, used in the production of textile fiberglass and flat panel displays; sodium tetraborate decahydrate, Na2B4O7 · 10H2O or borax, used in the production of adhesives; and the isotope boron-10 is used as a control for nuclear reactors, as a shield for nuclear radiation, and in instruments used for detecting neutrons.[18]
Boron is an essential plant micronutrient, required for cell wall strength and development, cell division, seed and fruit development, sugar transport and hormone development.[22] However, high soil concentrations of over 1.0 ppm can cause necrosis in leaves and poor growth. Levels as low as 0.8 ppm can cause these symptoms to appear in plants particularly boron-sensitive. Most plants, even those tolerant of boron in the soil, will show symptoms of boron toxicity when boron levels are higher than 1.8 ppm.[18] In animals, boron is an ultratrace element; in human diets, daily intake ranges from 2.1 to 4.3 mg boron/kg body weight (bw)/day.[23] It is also used as a supplement for the prevention and treatment of osteoporosis and arthritis.[24]
Carbon is the chemical element with atomic number 6, occurring as 12C, 13C and 14C.[25] At standard temperature and pressure, carbon is a solid, occurring in many different allotropes, the most common of which are graphite, diamond, the fullerenes and amorphous carbon.[25] Graphite is a soft, hexagonal crystalline, opaque black semimetal with very good conductive and thermodynamically stable properties. Diamond however is a highly transparentcolourlesscubic crystal with poor conductive properties, is the hardest known naturally occurring mineral and has the highest refractive index of all gemstones. In contrast to the crystal lattice structure of diamond and graphite, the fullerenes are molecules, named after Richard Buckminster Fuller whose architecture the molecules resemble. There are several different fullerenes, the most widely known being the "buckeyball" C60. Little is known about the fullerenes and they are a current subject of research.[25] There is also amorphous carbon, which is carbon without any crystalline structure.[26] In mineralogy, the term is used to refer to soot and coal, although these are not truly amorphous as they contain small amounts of graphite or diamond.[27][28] Carbon's most common isotope at 98.9% is 12C, with six protons and six neutrons.[29]13C is also stable, with six protons and seven neutrons, at 1.1%.[29] Trace amounts of 14C also occur naturally but this isotope is radioactive and decays with a half life of 5730 years; it is used for radiocarbon dating.[30] Other isotopes of carbon have also been synthesised. Carbon forms covalent bonds with other non-metals with an oxidation state of −4, −2, +2 or +4.[25]
Carbon is the fourth most abundant element in the universe by mass after hydrogen, helium and oxygen[31] and is the second most abundant element in the human body by mass after oxygen,[32] the third most abundant by number of atoms.[33] There are an almost infinite number of compounds that contain carbon due to carbon's ability to form long stable chains of C — C bonds.[34][35] The simplest carbon-containing molecules are the hydrocarbons, which contain carbon and hydrogen,[34] although they sometimes contain other elements in functional groups. Hydrocarbons are used as fossil fuels and to manufacture plastics and petrochemicals. All organic compounds, those essential for life, contain at least one atom of carbon.[34][35] When combined with oxygen and hydrogen, carbon can form many groups of important biological compounds[35] including sugars, lignans, chitins, alcohols, fats, and aromatic esters, carotenoids and terpenes. With nitrogen it forms alkaloids, and with the addition of sulfur also it forms antibiotics, amino acids, and rubber products. With the addition of phosphorus to these other elements, it forms DNA and RNA, the chemical-code carriers of life, and adenosine triphosphate (ATP), the most important energy-transfer molecule in all living cells.[35]
Nitrogen is the chemical element with atomic number 7, the symbol N and atomic mass 14.00674 u. Elemental nitrogen is a colorless, odorless, tasteless and mostly inertdiatomic gas at standard conditions, constituting 78.08% by volume of Earth's atmosphere. The element nitrogen was discovered as a separable component of air, by Scottish physician Daniel Rutherford, in 1772.[36] It occurs naturally in form of two isotopes: nitrogen-14 and nitrogen-15.[37]
Many industrially important compounds, such as ammonia, nitric acid, organic nitrates (propellants and explosives), and cyanides, contain nitrogen. The extremely strong bond in elemental nitrogen dominates nitrogen chemistry, causing difficulty for both organisms and industry in breaking the bond to convert the N 2 molecule into useful compounds, but at the same time causing release of large amounts of often useful energy when the compounds burn, explode, or decay back into nitrogen gas.
Nitrogen occurs in all living organisms, and the nitrogen cycle describes movement of the element from air into the biosphere and organic compounds, then back into the atmosphere. Synthetically produced nitrates are key ingredients of industrial fertilizers, and also key pollutants in causing the eutrophication of water systems. Nitrogen is a constituent element of amino acids and thus of proteins, and of nucleic acids (DNA and RNA). It resides in the chemical structure of almost all neurotransmitters, and is a defining component of alkaloids, biological molecules produced by many organisms.[38]
Oxygen is the chemical element with atomic number 8, occurring mostly as 16O, but also 17O and 18O.
Oxygen is the third-most common element by mass in the universe (although there are more carbon atoms, each carbon atom is lighter). It is highly electronegative and non-metallic, usually diatomic, gas down to very low temperatures. Only fluorine is more reactive among non-metallic elements. It is two electrons short of a full octet and readily takes electrons from other elements. It reacts violently with alkali metals and white phosphorus at room temperature and less violently with alkali earth metals heavier than magnesium. At higher temperatures it burns most other metals and many non-metals (including hydrogen, carbon, and sulfur). Many oxides are extremely stable substances difficult to decompose—like water, carbon dioxide, alumina, silica, and iron oxides (the latter often appearing as rust). Oxygen is part of substances best described as some salts of metals and oxygen-containing acids (thus nitrates, sulfates, phosphates, silicates, and carbonates.
Oxygen is essential to all life. Plants and phytoplankton photosynthesize water and carbon dioxide and water, both oxides, in the presence of sunlight to form sugars with the release of oxygen. The sugars are then turned into such substances as cellulose and (with nitrogen and often sulfur) proteins and other essential substances of life. Animals especially but also fungi and bacteria ultimately depend upon photosynthesizing plants and phytoplankton for food and oxygen.
Fire uses oxygen to oxidize compounds typically of carbon and hydrogen to water and carbon dioxide (although other elements may be involved) whether in uncontrolled conflagrations that destroy buildings and forests or the controlled fire within engines or that supply electrical energy from turbines, heat for keeping buildings warm, or the motive force that drives vehicles.
Oxygen forms roughly 21% of the Earth's atmosphere; all of this oxygen is the result of photosynthesis. Pure oxygen has use in medical treatment of people who have respiratory difficulties. Excess oxygen is toxic.
Oxygen was originally associated with the formation of acids—until some acids were shown to not have oxygen in them. Oxygen is named for its formation of acids, especially with non-metals. Some oxides of some non-metals are extremely acidic, like sulfur trioxide, which forms sulfuric acid on contact with water. Most oxides with metals are alkaline, some extremely so, like potassium oxide. Some metallic oxides are amphoteric, like aluminum oxide, which means that they can react with both acids and bases.
Although oxygen is normally a diatomic gas, oxygen can form an allotrope known as ozone. Ozone is a triatomic gas even more reactive than oxygen. Unlike regular diatomic oxygen, ozone is a toxic material generally considered a pollutant. In the upper atmosphere, some oxygen forms ozone which has the property of absorbing dangerous ultraviolet rays within the ozone layer. Land life was impossible before the formation of an ozone layer.
Fluorine is the chemical element with atomic number 9. It occurs naturally in its only stable form 19F.[39]
Fluorine is a pale-yellow, diatomic gas under normal conditions and down to very low temperatures. Short one electron of the highly stable octet in each atom, fluorine molecules are unstable enough that they easily snap, with loose fluorine atoms tending to grab single electrons from just about any other element. Fluorine is the most reactive of all elements, and it even attacks many oxides to replace oxygen with fluorine. Fluorine even attacks silica, one of the favored materials for transporting strong acids, and burns asbestos. It attacks common salt, one of the most stable compounds, with the release of chlorine. It never appears uncombined in nature and almost never stays uncombined for long. It burns hydrogen simultaneously if either is liquid or gaseous—even at temperatures close to absolute zero.[40] It is extremely difficult to isolate from any compounds, let alone keep uncombined.
Fluorine gas is extremely dangerous because it attacks almost all organic material, including live flesh. Many of the binary compounds that it forms (called fluorides) are themselves highly toxic, including soluble fluorides and especially hydrogen fluoride. Fluorine forms very strong bonds with many elements. With sulfur it can form the extremely stable and chemically inert sulfur hexafluoride; with carbon it can form the remarkable material Teflon that is a stable and non-combustible solid with a high melting point and a very low coefficient of friction that makes it an excellent liner for cooking pans and raincoats. Fluorine-carbon compounds include some unique plastics.
it is also used as a reactant in the making of toothpaste.
This section needs expansion. You can help by adding to it. (May 2011)
Neon is the chemical element with atomic number 10, occurring as 20Ne, 21Ne and 22Ne.[41]
Neon is a monatomic gas. With a complete octet of outer electrons it is highly resistant to removal of any electron, and it cannot accept an electron from anything. Neon has no tendency to form any normal compounds under normal temperatures and pressures; it is effectively inert. It is one of the so-called "noble gases".
Neon is a trace component of the atmosphere without any biological role.
Notes
^Hydrogen is occasionally referred to as an alkali metal, although this is rare.
^ abKamienski et al. "Lithium and lithium compounds". Kirk-Othmer Encyclopedia of Chemical Technology. John Wiley & Sons, Inc. Published online 2004. doi:10.1002/0471238961.1209200811011309.a01.pub2
^"Amorphous carbon". IUPAC Compendium of Chemical Terminology (2nd ed.). International Union of Pure and Applied Chemistry. 1997. Retrieved 2008-09-24.
^"diamond-like carbon films". IUPAC Compendium of Chemical Terminology (2nd ed.). International Union of Pure and Applied Chemistry. 1997. Retrieved 2008-09-24.
^ abcdAlberts, Bruce; Alexander Johnson; Julian Lewis; Martin Raff; Keith Roberts; Peter Walter (2002). Molecular Biology of the Cell. Garland Science.
الفئة واسب محرك أر-2800 دوبل واسب في طائرة إف 4 يو كورسير النوع محرك شعاعي بلد الأصل الولايات المتحدة الصانع برات آند ويتني تعديل مصدري - تعديل كان برات آند ويتني واسب الاسم المدني لفئة محركات شعاعية تُبرد بالهواء، أُنتجت منذ ثلاثينيات القرن العشرين وحتى الخمسينيات من نفس...
La Pétition des Droits (1628) est une loi constitutionnelle anglaise de première importance. La Pétition des Droits (ou Petition of Right), qui fixe les libertés imprescriptibles des sujets devant le roi, fut et demeure l'un des textes essentiels de la constitution de l'Angleterre. Elle fut rédigée par le Parlement d'Angleterre alors que la révolution commençait à gronder. Votée par le Parlement en mai 1628, elle fut approuvée par le roi Charles Ier en juin de la même année. Cett...
Kleinholthausen Stadt Dortmund Koordinaten: 51° 28′ N, 7° 27′ O51.4647.449100Koordinaten: 51° 27′ 50″ N, 7° 26′ 56″ O Höhe: ca. 100 m ü. NHN Einwohner: 884 (31. Dez. 2018) Postleitzahl: 44225 Vorwahl: 0231 Unterbezirk: 673 Bergehalde der Zeche Glückauf-TiefbauBergehalde der Zeche Glückauf-Tiefbau Der Ort Kleinholthausen (früher auch: Lütgenholthausen) ist einer der kleineren Dortmunder Vororte und...
Junta Central Electoral Logotipo de la Junta Central ElectoralLocalizaciónPaís República DominicanaInformación generalSigla JCETipo Organismo autónomoSede Plaza de la Bandera, Santo Domingo, Distrito Nacional, República DominicanaOrganizaciónPresidente Roman Andrés Jáquez Liranzo (desde el 11 de noviembre de 2020)Empleados 7,400 (2022)Presupuesto RD$ 5,511,291,957 (2022)HistoriaFundación 12 de abril de 1923Sitio web oficial[editar datos en Wikidata] La Junta Central ...
مايكل سيرا (بالإنجليزية: Michael Cera) معلومات شخصية اسم الولادة مايكل أوستن سيرا الميلاد 7 يونيو 1988 (العمر 35 سنة) كندا برامبتون، أونتاريو الإقامة تورونتوبروكلين مواطنة كندا الديانة إلحاد[1] الحياة العملية المهنة ممثل، ومخرج أفلام، وكاتب سيناريو، ...
العلاقات الغواتيمالية الليبيرية غواتيمالا ليبيريا غواتيمالا ليبيريا تعديل مصدري - تعديل العلاقات الغواتيمالية الليبيرية هي العلاقات الثنائية التي تجمع بين غواتيمالا وليبيريا.[1][2][3][4][5] مقارنة بين البلدين هذه مقارنة عامة ومرجعية للدو
Football match2023 UEFA Super CupThe Karaiskakis Stadium in Piraeus hosted the match. Manchester City Sevilla 1 1 Manchester City won 5–4 on penaltiesDate16 August 2023 (2023-08-16)VenueKaraiskakis Stadium, PiraeusMan of the MatchCole Palmer (Manchester City)[1]RefereeFrançois Letexier (France)[2]Attendance29,207[3]WeatherClear night28 °C (82 °F)47% humidity[4]← 2022 2024 → The 2023 UEFA Super Cup was the 48th edition o...
Retail store in Niagara Falls, Ontario, Canada WWE Niagara FallsTypePrivateIndustryRetailFoundedJuly 2002DefunctMarch 2011FateClosedHeadquartersNiagara Falls, Ontario, CanadaArea servedUnited States CanadaProductsClothing, accessories and mediaNumber of employees20ParentCanadian Niagara Hotels Inc. WWE Niagara Falls was a retail store located in Niagara Falls, Ontario, Canada. It was owned and operated by Canadian Niagara Hotels Inc., with its name and branding being licensed by the WWE.[...
Christian military order Part of a series on theKnights TemplarTemplar Cross Poor Fellow-Soldiers ofChrist and of the Temple of Solomon Overview History Latin Rule Seal Grand Masters Members Trials and dissolution Councils Council of Troyes (1129) Council of Pisa (1135) Council of Vienne Papal bulls Omne datum optimum (1139) Milites Templi (1144) Militia Dei (1145) Pastoralis praeeminentiae (1307) Faciens misericordiam (1308) Vox in excelso (1312) Ad providam (1312) Locations Brittany England...
Species of flowering plant Myosotis macrantha flowering plants of Myosotis macrantha Conservation status Not Threatened (NZ TCS)[1] Scientific classification Kingdom: Plantae Clade: Tracheophytes Clade: Angiosperms Clade: Eudicots Clade: Asterids Order: Boraginales Family: Boraginaceae Genus: Myosotis Species: M. macrantha Binomial name Myosotis macrantha(Hook.f.)Cheeseman[2][3] Myosotis macrantha is a species of flowering plant in the family Boraginaceae, en...
У этого термина существуют и другие значения, см. Гетти. Музей ГеттиJ. Paul Getty Museum Центр Гетти с высоты птичьего полёта Дата основания 1954 Дата открытия 1974 Основатель Пол Гетти[1] Местонахождение Лос-Анджелес Адрес Лос-Анджелес, США Посетителей в год 2 023 467 чел. (2016)&...
1995 Spanish filmAntarcticaTheatrical release posterSpanishAntártida Directed byManuel HuergaScreenplay byFrancisco CasavellaProduced byAndrés Vicente GómezStarring Ariadna Gil Carlos Fuentes José Manuel Lorenzo Francis Lorenzo Walter Vidarte Iñaki Aierra Ángel de Andrés López Juana Ginzo Cristina Hoyos John Cale CinematographyJavier AguirresarobeEdited byErnest BlasiMusic byJohn CaleProductioncompaniesSogetelIberoamericana FilmsRelease dates 5 September 1995 (1995-09-0...
1982 single by Slade(And Now the Waltz) C'est La VieUK/European cover of (And Now the Waltz) C'est La Vie.Single by Sladefrom the album The Amazing Kamikaze Syndrome B-sideMerry Xmas Everybody (Live & Kickin')Released19 November 1982[1]GenreRockLength3:43LabelRCASongwriter(s) Noddy Holder Jim Lea Producer(s)Jim LeaSlade singles chronology Rock and Roll Preacher (Hallelujah I'm on Fire) (1982) (And Now the Waltz) C'est La Vie (1982) My Oh My (1983) Audio samplefilehelp (And Now the...
1946 film The Brute ManTheatrical release posterDirected byJean YarbroughScreenplay by George Bricker M. Coates Webster Story byDwight V. BabcockProduced byBen PivarStarring Tom Neal Poni Adams Jan Wiley Peter Whitney Donald MacBride Rondo Hatton CinematographyMaury GertsmanEdited byPhilip CahnMusic byHans J. SalterProductioncompanyUniversal PicturesDistributed byProducers Releasing CorporationRelease date October 1, 1946 (1946-10-01) Running time58 minutesCountryUnited StatesL...
Not to be confused with St. Anne's Hospital in Haringey, London. Hospital in EnglandSt Ann's HospitalDorset HealthCare University NHS Foundation TrustSt Ann's HospitalShown in DorsetGeographyLocationPoole, Dorset, England, United KingdomCoordinates50°42′00″N 1°55′41″W / 50.700°N 1.928°W / 50.700; -1.928OrganisationCare systemNHSTypePsychiatric HospitalAffiliated universityNoneServicesEmergency departmentNo Accident & EmergencyBeds86HistoryOpened1912Link...
Politics of Andorra Constitution Executive Co-Princes (list) Emmanuel Macron Joan Enric Vives Sicília Representatives Patrick Strzoda Josep Maria Mauri Executive Council of Andorra Head of government Xavier Espot Zamora Legislature General Council General Syndic Roser Suñé Pascuet Administrative divisions Parishes Elections Recent elections 2011 2019 2023 Political parties Foreign relations Ministry of External Affairs Minister: Maria Ubach i Font Diplomatic missions of / in Andorra Nation...
Huxley shown in 1905, departing Lowestoft on an international cruise. History United Kingdom NameKhedive[2] OwnerJ Meadows Ltd, Grimsby[1] BuilderSmith’s Dock Co Ltd., North Shields[1] Yard number622[1] Laid down1899[2] Launched16/11/1899[1] In service1899 HomeportGrimsby FateSold in 1902 History NameRV Huxley NamesakeThomas Henry Huxley Owner 1902 George P Bidder, Grimsby - renamed HUXLEY[1] 1907 The Marine Biological Association of t...
For the sniper rifle, see M25 Sniper Weapon System. For the semiconductor material, see Cadmium telluride. Bullpup grenade launcher XM25 Counter Defilade Target Engagement System TypeBullpup grenade launcherPlace of originUnited States and GermanyService historyIn service2010–2013 (field evaluations)Used byUnited States ArmyWarsWar in AfghanistanProduction historyDesignerHeckler & KochOrbital ATKManufacturerHeckler & KochUnit costUS$30,000–35,000[1]...
Средняя Переяславская улица Восточная оконечность Средней Переяславской улицы Общая информация Страна Россия Город Москва Округ ЦАО Район Мещанский Протяжённость 450 м Метро 06 Рижская11 РижскаяD2 Рижская (МЦД) Прежние названия Красносельский проезд Медиафайлы на Вик...