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rdf:type: owl:Thing dbo:AmusementParkAttraction
rdfs:label: Legame chimico Χημικός δεσμός Химическая связь Chemická vazba Enllaç químic Chemische Bindung Ligação química Хімічний зв'язок 化学键 Enlace (química) Kemia ligo Kemisk bindning 化学結合 Ikatan kimia Lotura kimiko Nasc ceimiceach رابطة كيميائية Chemical bond Liaison chimique Wiązanie chemiczne 화학 결합 Chemische binding
rdfs:comment: Wiązanie chemiczne – według klasycznej definicji: każde trwałe połączenie dwóch atomów. Wiązania chemiczne powstają w wyniku uwspólnienia dwóch lub większej liczby elektronów pochodzących z jednego lub obu łączących się atomów albo przeskoku jednego lub większej liczby elektronów z jednego atomu na drugi i tym samym utworzenia pary jonowej. Une liaison chimique est une interaction durable entre plusieurs atomes, ions ou molécules, à une distance permettant la stabilisation du système et la formation d'un agrégat ou d'une substance chimique. Les électrons, chargés négativement, gravitent autour d’un noyau constitué de protons chargés positivement. Les deux corps s’attirent du fait de la force électrostatique s’exerçant entre les électrons et les protons. Ainsi, un électron positionné entre deux noyaux sera attiré par les deux corps chargés positivement, et les noyaux seront attirés par l’électron. C'est cette attraction qui constitue la liaison chimique. Χημικός δεσμός καλείται η ελκτική δύναμη που συνδέει άτομα ή ιόντα, που επιτρέπει το σχηματισμό μορίων (με την ευρεία έννοια) χημικών ουσιών, που περιέχουν δύο ή περισσότερα άτομα. Ο όρος επεκτείνεται επίσης στις ελκτικές αλληλεπιδράσεις μεταξύ των ιόντων ή των μορίων της ίδιας ουσίας, καθώς και στις ελκτικές αλληλεπιδράσεις μεταξύ των ιόντων ή και των «μορίων» διαφορετικών ουσιών, που βρίσκονται σε μείξη ή άλλου είδους επαφή. Ο (ενδομοριακός) χημικός δεσμός δημιουργείται με την ηλεκτροστατική έλξη ανάμεσα σε αντίθετα ηλεκτρικά φορτία, είτε μεταξύ των ηλεκτρονίων και των πυρήνων είτε ως αποτέλεσμα μιας διπολικής έλξης. Η ισχύς των χημικών δεσμών ποικίλει σημαντικά, καθώς υπάρχουν τόσο «ισχυροί δεσμοί», όπως οι ομοιοπολικοί δεσμοί ή οι ετεροπολικοί δεσμοί, αλλά και «ασθενείς δεσμοί», L'enllaç químic és el fenomen fisicoquímic pel qual dos o més àtoms o ions s'uneixen per a formar compostos químics, obtenint així una major estabilitat. Per tant, per norma general, dos àtoms s'enllacen si l'energia assolida en la seva unió és inferior a la que tenia cadascun d'ells per separat. La gran majoria de les substàncies presents en la natura estan formades per conjunts d'àtoms vinculats entre si que, depenent dels tipus d'enllaços que presenten i les seves disposicions espacials, determinen les diferents propietats de les substàncies. Aquests fets atorguen una gran importància a l'estudi de l'enllaç químic, convertint-lo així en una de les disciplines més importants de la química. Chemická vazba je silová interakce poutající navzájem sloučené atomy, která je energeticky stabilizuje a vede ke vzniku molekuly. Vzniklá molekula má potom nižší energii, než měly původní atomy před sloučením. Základ všech vazeb spočívá ve společném sdílení nebo předávání vazebných elektronů příslušnými částicemi. Si ha un legame chimico quando una forza di natura elettrostatica tiene uniti più atomi in una specie chimica (legami forti, o primari o intramolecolari) o più molecole in una sostanza allo stato condensato (legami deboli, o secondari o intermolecolari). Een chemische binding is de aantrekkende kracht tussen twee of meer atomen, ionen of moleculen van een gegeven scheikundige stof. De aantrekkingskrachten binnen een atoom, tussen protonen, neutronen en elektronen, zijn geen chemische, maar fysische bindingen. Kemia (aŭ ĥemia) ligo estas la nomo de la kunigaj fortoj, kiuj respondecas por tio, ke atomoj restas kune (atomoj malofte troviĝas nekunligitaj en nature okazantaj kondiĉoj; anstataŭe ili troviĝas ligitaj al aliaj atomoj).Se atomo estas ligita kun aliaj de sama speco, rezultas homoatoma (sam-atoma) molekulo: ekzemple, O2 kaj N2, kiuj estas duatomaj molekuloj de la gasoj oksigeno kaj nitrogeno. Tamen plej ofte atomo de ĥemia elemento troviĝas ligita kun alispecaj elementatomoj, tiel formante heteroatomajn molekulojn de kombinaĵoj. La emon kaj la kapablon de atomo ligiĝi kun aliaj atomoj determinas elektronaj konfiguracioj. 화학 결합(化學結合)은 원자 또는 의 집합체에서 그 구성 원자들 간에 작용하여, 이를 하나의 단위체로 간주할 수 있게 하는 힘 혹은 결합을 말한다. 화학 결합은 크게 이온 결합, 공유 결합, 금속 결합, 배위 결합 등으로 구분된다. A chemical bond is a lasting attraction between atoms or ions that enables the formation of molecules and crystals. The bond may result from the electrostatic force between oppositely charged ions as in ionic bonds, or through the sharing of electrons as in covalent bonds. The strength of chemical bonds varies considerably; there are "strong bonds" or "primary bonds" such as covalent, ionic and metallic bonds, and "weak bonds" or "secondary bonds" such as dipole–dipole interactions, the London dispersion force and hydrogen bonding. Strong chemical bonding arises from the sharing or transfer of electrons between the participating atoms. Химическая связь — это взаимодействие атомов, обусловливающее устойчивость молекулы или кристалла как целого. Химическая связь определяется взаимодействием между заряженными частицами (ядрами и электронами). Современное описание химической связи проводится на основе квантовой механики. Основные характеристики химической связи — прочность, длина, полярность, устойчивость. 化学結合（かがくけつごう、（英: chemical bond）は、化学物質を構成する複数の原子を結びつけている結合である。化学結合は分子内にある原子同士をつなぎ合わせる分子内結合と分子と別の分子とをつなぎ合わせる分子間結合とに大別でき、分子間結合を作る力を分子間力という。なお、金属結晶は通常の意味での「分子」とは言い難いが、金属結晶を構成する結合（金属結合）を説明するバンド理論では、分子内結合における原子の数を無限大に飛ばした極限を取ることで、金属結合の概念を定式化している。分子内結合、分子間結合、金属結合のいずれにおいても、化学結合を作る力は原子の中で正の電荷を持つ原子核が、別の原子の中で負の電荷を持つ電子を電磁気力によって引きつける事によって実現されている。物理学では4種類の力が知られているが、電磁気力以外の3つの力は電磁気力よりも遥かに小さい為、化学結合を作る主要因にはなっていない。したがって化学結合の後述する細かな分類、例えば共有結合やイオン結合はどのような状態の原子にどのような形で電磁気力が働くかによる分類である。それに対し複雑な化合物、例えば金属複合体では価電子理論は破綻し、その振る舞いの多くは量子力学を基本とした理解が必要となる。これに関してはライナス・ポーリングの著書、The Nature of the Chemical Bondで詳しく述べられている。 Ikatan kimia adalah sebuah proses fisika yang bertanggung jawab dalam interaksi gaya tarik menarik antara dua atom atau molekul yang menyebabkan suatu senyawa diatomik atau menjadi stabil.Penjelasan mengenai gaya tarik menarik ini sangatlah rumit dan dijelaskan oleh elektrodinamika kuantum. Dalam praktiknya, para kimiawan biasanya bergantung pada teori kuantum atau penjelasan kualitatif yang kurang kaku (namun lebih mudah untuk dijelaskan) dalam menjelaskan ikatan kimia. Secara umum, ikatan kimia yang kuat diasosiasikan dengan transfer elektron antara dua atom yang berpartisipasi. Ikatan kimia menjaga molekul-molekul, kristal, dan gas-gas diatomik untuk tetap bersama. Selain itu ikatan kimia juga menentukan struktur suatu zat. Lotura kimikoa atomo eta molekulen arteko interakzio erakargarrien prozesu kimikoaren erantzulea da. Halaber, konposatu kimiko diatomiko eta poliatomikoei egonkortasuna ematearen erantzulea da. Indar erakargarri horien azalpena kimika kuantikoaren legeetan aurkitzen dugu. Lotura kimikoa azaltzeko era sinpleago bat honakoa da: lotura kimikoa bi atomoren arteko indarra da behin sistema egonkorrago bat eratu eta gero. Molekula, kristal, metal eta gas diatomikoak lotura kimikoen bidez elkartuta daude, eta materiaren propietate fisiko eta kimikoak determinatzen dituzte. Is aomadh buan é nasc ceimiceach idir adaimh, iain nó móilíní a chuireann ar chumas déanmhaíochta comhdhúile ceimiceacha. D’fhéadfadh an nasc teacht as an bhfórsa leictreastatach idir iain atá luchtaithe go hurchomhaireach, amhail i naisc ianacha nó trí chomhroinnt leictreon mar atá i naisc chomhfhiúsacha. Athraíonn neart na nasc ceimiceach go mór; tá “naisc láidre” nó “naisc phríomhúla” mar naisc chomhfhiúsacha, ianacha agus mhiotalacha, agus “naisc laga” nó “naisc thánaisteacha” mar idirghníomhaíochtaí dépholach-dépholach, fórsa scaipthe Londain agus nascadh hidrigine. En kemisk bindning är en attraktion mellan atomer, som möjliggör bildandet av kemiska substanser. Attraktionen beror på att det energimässigt är fördelaktigare för de flesta atomer och joner att vara bundna till lämpliga bindningspartners än att förekomma som obundna partiklar. De olika bindningarnas styrkor varierar avsevärt. De starkaste bindningstyperna är jonbindningar och kovalenta bindningar. Övriga bindningstyper är metallbindning, van der Waals-bindning, vätebindning, dipol-dipolbindning samt jon-dipolbindning. En química, un enlace es el proceso químico responsable de las interacciones atractivas entre átomos y moléculas,y que confiere estabilidad a los compuestos químicos diatómicos y poliatómicos. La explicación de tales fuerzas atractivas es un área compleja que está descrita por las leyes de la química cuántica. Es la fuerza existente entre los átomos una vez que se ha formado un sistema estable. الروابط أو الأواصر الكيميائية في الكيمياء ظاهرة تماسك الذرات في الجزيء أو البلورة أو غير ذلك. وجميع الروابط الكيميائية ترجع لتفاعل الإلكترونات الموجودة في الذرة. وهذه الإلكترونات جزء من المدار الذري للذرة. ولكن في الرابطة تقوم الإلكترونات بتكوين مدار جزيئي بين ذرتين أو أكثر ويتماسك الجزيء. تفاعلات الإلكترونات تنشأ نتيجة القوة الكهرومغناطيسية حيث تتآثر الإلكترونات (سالبة الشحنة) مع نواة الذرة (موجبة الشحنة) وكذلك تتآثر فيما بينها، فتنشأ الروابط بين الذرات، وبعض الخصائص الأخرى مثل المغناطيسية. وتكوّن الذرات رابطة في حالة أن تكون طاقتها بعد الارتباط أقل من طاقتها قبل الارتباط. تتحرك الإلكترونات في الذرة والجزيئات في مستويات للطاقة. Die Chemische Bindung ist eine der wichtigsten Grundlagen der Chemie, denn die Bildung von Bindungen ist die Grundlage dafür, dass sich Moleküle und damit chemische Verbindungen bilden können. Chemische Bindungen liegen vor, wenn zwei oder mehrere Atome oder Ionen stark miteinander verbunden sind und dadurch chemischen Verbindungen bilden. Dass es überhaupt zur Ausbildung von chemischen Bindungen kommt, beruht darauf, dass es für die betroffenen Atome oder Ionen energetisch günstiger ist, mit geeigneten Bindungspartnern verbunden zu sein, als separat in Form von einzelnen, ungebundenen Teilchen vorzuliegen. Grundlage der Ausbildung von Bindungen sind elektrostatische Wechselwirkungen oder Wechselwirkungen der Elektronen zwischen zwei oder mehreren Atomen. In vielen Fällen spielen beide Art Хімі́чний зв'язо́к — це взаємодія між атомами, яка утримує їх у молекулі чи твердому тілі. Хімічні зв'язки є результатом взаємодії електронів та ядер атомів і описуються квантовою механікою. В першій третині XX ст. зародилася окрема галузь хімії, предметом якої є вивчення структури молекул і кристалів за допомогою квантово-механічних розрахунків: квантова хімія. Ця галузь набула особливо інтенсивного розвитку протягом кількох останніх десятиріч. Ligações químicas são conjunções estabelecidas entre átomos para formarem moléculas ou, no caso de ligações iônicas ou metálicas, agregados atômicos (superátomos) organizados de forma a constituírem a estrutura básica de uma substância ou composto. Na natureza existem por volta de uma centena de elementos químicos. Os átomos destes elementos, ao se unirem, formam a grande diversidade de substâncias. 化學鍵（英語：Chemical Bond）是一種粒子間的結合模式，其中粒子可以是原子或离子。透過化學鍵，粒子可組成多原子的化學物質。鍵由兩相反電荷間的電磁力引起，電荷可能來自電子和原子核，或由偶極子造成。化學鍵種類繁多，其能量大小、鍵長亦有所不同。在原子中，帶負電、繞原子核運行的電子與核內帶正電的質子互相吸引，而位於兩原子核之間的電子則皆受兩方吸引。因此，原子核和電子間最穩定的組態，是當電子位處兩原子核間之時。這些電子使原子核能夠彼此相吸，形成所謂的化學鍵。然而，化學鍵並不能減少個別粒子所構成的體積。由於電子的質量較小且具有物質波性質，它們相較於原子核而言佔據了極大部分的體積，使原子核之間距離較遠。一般而言，強化學鍵的形成伴隨著原子間電子的共用或轉移。分子、晶體、金屬和雙原子氣體。
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dbo:abstract: 化學鍵（英語：Chemical Bond）是一種粒子間的結合模式，其中粒子可以是原子或离子。透過化學鍵，粒子可組成多原子的化學物質。鍵由兩相反電荷間的電磁力引起，電荷可能來自電子和原子核，或由偶極子造成。化學鍵種類繁多，其能量大小、鍵長亦有所不同。在原子中，帶負電、繞原子核運行的電子與核內帶正電的質子互相吸引，而位於兩原子核之間的電子則皆受兩方吸引。因此，原子核和電子間最穩定的組態，是當電子位處兩原子核間之時。這些電子使原子核能夠彼此相吸，形成所謂的化學鍵。然而，化學鍵並不能減少個別粒子所構成的體積。由於電子的質量較小且具有物質波性質，它們相較於原子核而言佔據了極大部分的體積，使原子核之間距離較遠。一般而言，強化學鍵的形成伴隨著原子間電子的共用或轉移。分子、晶體、金屬和雙原子氣體。 En química, un enlace es el proceso químico responsable de las interacciones atractivas entre átomos y moléculas,y que confiere estabilidad a los compuestos químicos diatómicos y poliatómicos. La explicación de tales fuerzas atractivas es un área compleja que está descrita por las leyes de la química cuántica. Es la fuerza existente entre los átomos una vez que se ha formado un sistema estable. Las moléculas, cristales, metales y gases diatómicos (que forman la mayor parte del ambiente físico que nos rodea) están unidos por enlaces químicos, que determinan las propiedades físicas y químicas de la materia. Las cargas opuestas se atraen porque al estar unidas adquieren una situación más estable que cuando estaban separadas. Esta situación de mayor estabilidad suele darse cuando el número de electrones que poseen los átomos en su último nivel es igual a ocho, estructura que coincide con la de los gases nobles ya que los electrones que orbitan el núcleo están cargados negativamente, y que los protones en el núcleo lo están positivamente, la configuración más estable del núcleo y los electrones es una en la que los electrones pasan la mayor parte del tiempo «entre» los núcleos, que en otro lugar del espacio. Estos electrones hacen que los núcleos se atraigan mutuamente. Die Chemische Bindung ist eine der wichtigsten Grundlagen der Chemie, denn die Bildung von Bindungen ist die Grundlage dafür, dass sich Moleküle und damit chemische Verbindungen bilden können. Chemische Bindungen liegen vor, wenn zwei oder mehrere Atome oder Ionen stark miteinander verbunden sind und dadurch chemischen Verbindungen bilden. Dass es überhaupt zur Ausbildung von chemischen Bindungen kommt, beruht darauf, dass es für die betroffenen Atome oder Ionen energetisch günstiger ist, mit geeigneten Bindungspartnern verbunden zu sein, als separat in Form von einzelnen, ungebundenen Teilchen vorzuliegen. Grundlage der Ausbildung von Bindungen sind elektrostatische Wechselwirkungen oder Wechselwirkungen der Elektronen zwischen zwei oder mehreren Atomen. In vielen Fällen spielen beide Arten von Wechselwirkungen eine Rolle. Zur Beschreibung einer Bindung sind zwei Parameter wichtig, die sich experimentell bestimmen und untersuchen lassen, die Bindungslänge als Maß für den Abstand zweier Atomkerne und die Bindungsenergie, als Maß für die Stärke einer Bindung. Bei chemischen Bindungen werden verschiedene Arten unterschieden. Bei Verbindungen vom Typ der Salze werden Ionenkristalle durch die auf elektrostatischen Wechselwirkungen beruhenden ionischen Bindungen gebildet. In Metallen liegen metallische Bindungen vor, die sich dadurch auszeichnen, dass die beteiligten Elektronen in einem Gitter, gebildet aus Metallkationen, frei beweglich sind. Dagegen beruht die Bildung von Molekülen und Komplexen auf lokalisierbaren kovalenten Bindungen zwischen Atomen, die auf der Bildung von Elektronenpaaren basieren. Dabei kann man bei den lokalisierbaren Elektronenpaarbindungen zusätzlich unterscheiden zwischen der kovalenten Bindung, bei der beide Atome jeweils ein Elektron zur Bindung beitragen, und der koordinativen Bindung in Komplexen, bei der das eine Elektronenpaar des Liganden mit einem leeren Orbital des Zentralatoms wechselwirkt. In speziellen Fällen können Mehrzentrenbindungen auftreten. Metallische, ionische und kovalente Bindungen sind Idealisierungen der chemischen Bindungen. Mitunter werden auch schwache Wechselwirkungen, wie die Van-der-Waals-Wechselwirkungen, Dipol-Wechselwirkungen und Wasserstoffbrückenbindungen zu den chemischen Bindungen gezählt. Jedoch sind diese Bindungen keine stabilen chemischen Bindungen, sondern schwache Anziehungskräfte, die zwischen einzelnen Molekülen wirken. Für die Beschreibung der Bindungen in Molekülen wurden in der theoretischen Chemie verschiedene Theorien aufgestellt, die jedoch alle nur möglichst exakte Näherungen der tatsächlichen Bindungssituation sind. Zu ihnen zählen die Valenzstruktur- und die Molekülorbitaltheorie. Bindungen lassen sich durch die Zuführung von Energie, etwa in Form von Wärme oder Licht, spalten. Die dadurch entstehenden einzelnen Atome oder Moleküle haben häufig eine hohe Neigung, sich erneut zu binden. Die Neubindung kann an der vorher gespaltenen Stelle stattfinden, oder sie erfolgt an anderen Atomen oder Molekülen. Dies ist eine der Grundlagen für chemische Reaktionen. Chemická vazba je silová interakce poutající navzájem sloučené atomy, která je energeticky stabilizuje a vede ke vzniku molekuly. Vzniklá molekula má potom nižší energii, než měly původní atomy před sloučením. Základ všech vazeb spočívá ve společném sdílení nebo předávání vazebných elektronů příslušnými částicemi. A chemical bond is a lasting attraction between atoms or ions that enables the formation of molecules and crystals. The bond may result from the electrostatic force between oppositely charged ions as in ionic bonds, or through the sharing of electrons as in covalent bonds. The strength of chemical bonds varies considerably; there are "strong bonds" or "primary bonds" such as covalent, ionic and metallic bonds, and "weak bonds" or "secondary bonds" such as dipole–dipole interactions, the London dispersion force and hydrogen bonding. Strong chemical bonding arises from the sharing or transfer of electrons between the participating atoms. Since opposite electric charges attract, the negatively charged electrons surrounding the nucleus and the positively charged protons within a nucleus attract each other. An electron positioned between two nuclei will be attracted to both of them, and the nuclei will be attracted toward electrons in this position. This attraction constitutes a covalent chemical bond. Because of the matter wave nature of electrons and their smaller mass, they occupy a much larger of volume than the nuclei, and this volume keeps the atomic nuclei in a bond far apart compared to the size of the nuclei. The atoms in molecules, crystals, metals and most of the physical environment around and within us are held together by chemical bonds, which determine the structure and properties of matter. All bonds can be explained by quantum theory, but, in practice, simplified rules and theories allow chemists to predict the strength, directionality, and polarity of bonds. The octet rule and VSEPR theory are examples. More sophisticated theories are valence bond theory, which includes orbital hybridization and resonance, and molecular orbital theory which includes the linear combination of atomic orbitals and ligand field theory. Electrostatics are used to describe bond polarities and the effects they have on chemical substances. Is aomadh buan é nasc ceimiceach idir adaimh, iain nó móilíní a chuireann ar chumas déanmhaíochta comhdhúile ceimiceacha. D’fhéadfadh an nasc teacht as an bhfórsa leictreastatach idir iain atá luchtaithe go hurchomhaireach, amhail i naisc ianacha nó trí chomhroinnt leictreon mar atá i naisc chomhfhiúsacha. Athraíonn neart na nasc ceimiceach go mór; tá “naisc láidre” nó “naisc phríomhúla” mar naisc chomhfhiúsacha, ianacha agus mhiotalacha, agus “naisc laga” nó “naisc thánaisteacha” mar idirghníomhaíochtaí dépholach-dépholach, fórsa scaipthe Londain agus nascadh hidrigine. San adamh, timpeallaíonn na leictreoin an núicléas i bhfithiseáin i scealla timpeall an núicléis. Muna mbíonn an sceall seachtrach lán le leictreoin, an uasmhéid atá ceadaithe don adamh sin, bíonn an t-adamh éagobhsaí agus fonn air nasc a dhéanamh le hadamh eile. Aithnítear trí shaghas naisc phríomhúil. An nasc ianach, mar atá i gclóiríd sóidiam, NaCl (salann mín), inar chaill an sóidiam leictreon agus ar ghnóthaigh an clóirín leictreon, ionas go gcoinnítear na hiain seo le chéile trí aomadh frithpháirteach idir Na+ is Cl-. Sa nasc comhfhiúsach, mar atá i gclóirín, Cl2, bíonn cuid de na leictreoin bainteach leis an dá núicléas. Nuair a nascann dhá adamh hidrigine (H) le hadamh amháin ocsaigine (O), cruthaítear móilín uisce, H2O, agus bíonn dhá nasc chomhfhiúsacha ann. Sa nasc miotalach, mar atá i sóidiam, Na, bíonn na fiúsleictreoin dílogánaithe agus bainteach le cuid mhaith núicléas, rud a thugann seoltacht leictreach don mhiotal. Tugtar nasc singil ar nasc comhfhiúsach ina bhfuil dhá leictreon i gceist, nasc dúbailte ar cheann le 4 leictreon, agus nasc triarach ar cheann le 6 leictreon. Comharthaítear na naisc seo i bhfoirmlí ceimiceacha le -, =, is ≡. Tugtar an nascfhuinneamh ar an bhfuinneamh is gá chun nasc ceimiceach a bhriseadh (mar shampla, chun móilín clóirín, Cl2, a athrú in dhá adamh clóirín, 2 Cl). Si ha un legame chimico quando una forza di natura elettrostatica tiene uniti più atomi in una specie chimica (legami forti, o primari o intramolecolari) o più molecole in una sostanza allo stato condensato (legami deboli, o secondari o intermolecolari). I legami chimici "più forti" hanno un contenuto energetico maggiore e sono più difficili da rompere, mentre i legami minori hanno un contenuto energetico minore e sono più facili da rompere. Da ciò deriva che le molecole che hanno al loro interno legami chimici più deboli sono più instabili. Inoltre tanto più un legame è forte, tanto minore è la lunghezza del legame, essendo la forza che tiene uniti gli atomi maggiore. Een chemische binding is de aantrekkende kracht tussen twee of meer atomen, ionen of moleculen van een gegeven scheikundige stof. De aantrekkingskrachten binnen een atoom, tussen protonen, neutronen en elektronen, zijn geen chemische, maar fysische bindingen. Химическая связь — это взаимодействие атомов, обусловливающее устойчивость молекулы или кристалла как целого. Химическая связь определяется взаимодействием между заряженными частицами (ядрами и электронами). Современное описание химической связи проводится на основе квантовой механики. Основные характеристики химической связи — прочность, длина, полярность, устойчивость. 化学結合（かがくけつごう、（英: chemical bond）は、化学物質を構成する複数の原子を結びつけている結合である。化学結合は分子内にある原子同士をつなぎ合わせる分子内結合と分子と別の分子とをつなぎ合わせる分子間結合とに大別でき、分子間結合を作る力を分子間力という。なお、金属結晶は通常の意味での「分子」とは言い難いが、金属結晶を構成する結合（金属結合）を説明するバンド理論では、分子内結合における原子の数を無限大に飛ばした極限を取ることで、金属結合の概念を定式化している。分子内結合、分子間結合、金属結合のいずれにおいても、化学結合を作る力は原子の中で正の電荷を持つ原子核が、別の原子の中で負の電荷を持つ電子を電磁気力によって引きつける事によって実現されている。物理学では4種類の力が知られているが、電磁気力以外の3つの力は電磁気力よりも遥かに小さい為、化学結合を作る主要因にはなっていない。したがって化学結合の後述する細かな分類、例えば共有結合やイオン結合はどのような状態の原子にどのような形で電磁気力が働くかによる分類である。化学結合の定式化には、複数の原子がある場合において電子の軌道を決定する必要があり、そのためには量子力学が必須となる。しかし多くの簡単な化合物や多くのイオンにおいて、化学結合に関する定性的な説明や簡単な定量的見積もりを行う分には、量子力学で得られた知見に価電子や酸化数といった分子の構造と構成を使って古典力学的考察を加える事でも可能である。それに対し複雑な化合物、例えば金属複合体では価電子理論は破綻し、その振る舞いの多くは量子力学を基本とした理解が必要となる。これに関してはライナス・ポーリングの著書、The Nature of the Chemical Bondで詳しく述べられている。 Ligações químicas são conjunções estabelecidas entre átomos para formarem moléculas ou, no caso de ligações iônicas ou metálicas, agregados atômicos (superátomos) organizados de forma a constituírem a estrutura básica de uma substância ou composto. Na natureza existem por volta de uma centena de elementos químicos. Os átomos destes elementos, ao se unirem, formam a grande diversidade de substâncias. As ligações químicas podem ocorrer através da doação e recepção de elétrons entre os átomos, que se transformam em íons que se mantêm unidos via a denominada ligação iônica. Como exemplo tem-se o cloreto de sódio (NaCl). Compostos iônicos conduzem eletricidade no estado líquido ou dissolvidos, mas não quando sólidos. Eles normalmente têm um alto ponto de fusão e alto ponto de ebulição. Uma analogia seria comparar os elementos químicos ao alfabeto que, uma vez organizado seguindo uma dada regra ou ordem, leva as letras a formarem palavras imbuídas de significado distinto e bem mais amplo daquele disponível quando separadas. Os átomos, comparando, seriam as letras, e organizando-as seriam as palavras. Na escrita não podemos simplesmente ir juntando as letras para a formação de palavras: aasc em português não tem significado (salvo se corresponder a uma sigla); porém se organizarmos essas mesmas letras teremos a palavra casa, que certamente tem significado "físico". Assim como na escrita, há regras físico-químicas a serem obedecidas, e a união estabelecida entre átomos não ocorre de qualquer forma, devendo haver condições apropriadas para que a ligação entre os átomos ocorra, tais como: afinidade, contato, energia, etc. Outro tipo de ligações químicas ocorre através do compartilhamento de elétrons: a ligação covalente. Como exemplo tem-se a água (H2O). Dá-se o nome de molécula apenas à estrutura em que todos os seus átomos conectam-se uns aos outros de forma exclusiva via ligação covalente. Existe também a ligação metálica onde os elétrons das últimas camadas dos átomos do metal soltam-se dos respectivos íons formados e passam a se movimentar livremente entre todos os íons de forma a mantê-los unidos. Um átomo encontra-se assim ligado não apenas ao seu vizinho imediato, como na ligação covalente, mas sim a todos os demais átomos do objeto metálico via uma nuvem de elétrons de longo alcance que se distribui entorno dos mesmos. Kemia (aŭ ĥemia) ligo estas la nomo de la kunigaj fortoj, kiuj respondecas por tio, ke atomoj restas kune (atomoj malofte troviĝas nekunligitaj en nature okazantaj kondiĉoj; anstataŭe ili troviĝas ligitaj al aliaj atomoj).Se atomo estas ligita kun aliaj de sama speco, rezultas homoatoma (sam-atoma) molekulo: ekzemple, O2 kaj N2, kiuj estas duatomaj molekuloj de la gasoj oksigeno kaj nitrogeno. Tamen plej ofte atomo de ĥemia elemento troviĝas ligita kun alispecaj elementatomoj, tiel formante heteroatomajn molekulojn de kombinaĵoj. La emon kaj la kapablon de atomo ligiĝi kun aliaj atomoj determinas elektronaj konfiguracioj. Kemiaj ligoj estas la fortoj aŭ interagoj kiuj ligas atomojn kune en laformo de kompleksaj agregaĵoj. La procezo mem de la formiĝo de kemiaj ligoj nomiĝas ligiĝo. Laŭ nuntempa teorio, kemiaj ligoj rezultas el la interago de specifaj elektronojentenitaj en la kombiniĝantaj atomoj. La specifaj elektronoj partoprenantaj en ligiĝo nomiĝas valentaj elektronoj. Por ĉefgrupaj elementoj, valentaj elektronoj estas tiuj en laplej ekstera ŝelo, t.e. la ŝelo de la plej alta ŝelnumero (n). Ĉi tiujelektronoj ĉiam estos en subŝeloj aŭ s aŭ p. Ekz-e: Kiom da valentaj elektronoj enhavas atomoj de ĉiu en la sekvaj elementoj: a) 11Na, (b) 33As? Solvo: a) La elektrona konfiguracio de natrio (Na) estas 1s22s22p63s1. Iuj ajn elektronoj en la plej ekstera ŝelo (plej granda valoro n) estosvalentaj elektronoj. Ekstera ŝelo estas la tria (n = 3), kiu entenas unu1s- kaj neniujn p-elektronojn. Do, estas nur 1 valent-elektrono, laelektrono 3s. b) La elektrona konfiguracio de arseno (As) estas 1s22s22p63s23p64s23d104p3. Ĉar As estas ĉefgrupa elemento, nur plej foraj subŝeloj s kaj p postulas konsideron. La plej fora ŝelo estas ŝelo 4 entenanta 5 valentelektronojn: 2 el la subŝelo 4s kaj 3 en la subŝelo 4p. Rimarku ke la subŝel-elektronoj 3d ne eniras en la nombron da valentelektronoj, ĉar la subŝelo 3d troviĝas en interna ŝelo (n = 3). Ke nur la plej foraj elektronoj de atomoj estas tiuj implicitaj en ligiĝoestas logike, ĉar ili estas la unuaj kiuj alproksimiĝas kiam atomoj kolizias- necesa okazaĵo por reakcioj de kombiniĝo. Ankaŭ ĉi tiuj elektronojlokiĝas plej fore de la nukleo, kaj do estas la malplej forte ligitaj, ĉaraltirforto al la nukleo varias laŭ distanco; do estas ili, kiuj emaspleje rearanĝiĝi. Por ĉef-grupaj elementoj, oni disponas pri stenografia prezentiĝo de lanombro da valentaj elektronoj. Ĝi estas la elektron-punkta strukturo. Litio: 1s22s1 | Li. Berilo: 1s22s2 | .Be. elektron-punkta strukturo - en elektron-punkta strukturo, unu punkto por ĉiu valentelektrono estas lokita ĉirkaŭ la elementa simbolo. Do, eblas fari seriojn: H, Li, Na, K: unu punkto - X.Be, Mg, Ca: du punktoj - .X.B, Al: tri punktoj, sed ĉiuj en malsamaj flankoj de la kemia simboloC, Si: kvar punkoj, ĉiuj en malsamaj flankojN, P: tri punktoj en malsamaj flankoj kaj unu paro en la samaO, S: du punktoj en malsamaj flankoj kaj du paroj en la samaF, Cl: unu punkto en malsama flanko kaj tri paroj en la samanoblaj/nobelaj gasoj, escepte He: kvar paroj da valentelektronoj Ni povas fari tri gravajn ĝeneraligojn pri valentelektronoj surbaze deelektron-punktaj diagramoj: 1. Elementoj en sama grupo de perioda tabelo havas saman nombron da valentelektronoj.2. La grupa numero donas la nombron da valentelektronoj.3. La maksimuma nombro da valentelektronoj estas 8. Povas okazi, ke iuj ŝeloj (n estas pli ol 2) enhavas pli ol 8 elektronojn.Tamen, tio okazas nur kiam ili ne estas la plej fora ŝelo kaj do ne lavalenta ŝelo. Ekzemple, arseno havas 18 elektronojn en sia tria ŝelo. Sed estas ŝelo 4 kiu estas la valenta ŝelo en arseno. vidu: okopa regulo - Atomoj emas interagi per rearanĝiĝo (transgrupiĝo) de elektronoj tiel ke ĉiu partoprena atomo atingas noblagasan elektronan konfiguracion. Du modeloj klarigas pri la naturo de la kemia ligo: jona modelo: laŭ la jon(lig)a modelo, atomoj ligiĝas per gajno aŭ perdo de elektronoj de aliaj atomoj tiamaniere, ke ili atingas noblagasan konfiguracion - tiel, la jonliga modelo temas pri elektrona transiĝo (transdoniĝo) - speciale utilas por priskribi la ligojn en kombinaj entenantaj kaj metalojn kaj ne-metalojn;kovalenta modelo: en la kovalenta modelo, atomoj obeas la okopan regulon per kunhaviĝo (komuniĝo) de elektronoj - tiel, la kovalenta modelo temas pri elektrona kunhaviĝo - ordinare uziĝas por ligaj situacioj kie ĉiuj atomoj estas nemetaloj. Forto de Van-der-Waals * * * * Lotura kimikoa atomo eta molekulen arteko interakzio erakargarrien prozesu kimikoaren erantzulea da. Halaber, konposatu kimiko diatomiko eta poliatomikoei egonkortasuna ematearen erantzulea da. Indar erakargarri horien azalpena kimika kuantikoaren legeetan aurkitzen dugu. Lotura kimikoa azaltzeko era sinpleago bat honakoa da: lotura kimikoa bi atomoren arteko indarra da behin sistema egonkorrago bat eratu eta gero. Molekula, kristal, metal eta gas diatomikoak lotura kimikoen bidez elkartuta daude, eta materiaren propietate fisiko eta kimikoak determinatzen dituzte. Aurkako kargak elkar erakartzen dute elkarturik daudenean egoera egonkor bat eratzen dutelako banatuak zeudenean baino. Atomoen kasuan, egonkortasun handieneko egoera nukleotik urrunen dagoen geruzan zortzi elektroi aurkitzen direnean lortzen da. Hau gas nobleen kasua da. Ikatan kimia adalah sebuah proses fisika yang bertanggung jawab dalam interaksi gaya tarik menarik antara dua atom atau molekul yang menyebabkan suatu senyawa diatomik atau menjadi stabil.Penjelasan mengenai gaya tarik menarik ini sangatlah rumit dan dijelaskan oleh elektrodinamika kuantum. Dalam praktiknya, para kimiawan biasanya bergantung pada teori kuantum atau penjelasan kualitatif yang kurang kaku (namun lebih mudah untuk dijelaskan) dalam menjelaskan ikatan kimia. Secara umum, ikatan kimia yang kuat diasosiasikan dengan transfer elektron antara dua atom yang berpartisipasi. Ikatan kimia menjaga molekul-molekul, kristal, dan gas-gas diatomik untuk tetap bersama. Selain itu ikatan kimia juga menentukan struktur suatu zat. Kekuatan ikatan-ikatan kimia sangatlah bervariasi. Pada umumnya, ikatan kovalen dan ikatan ion dianggap sebagai ikatan "kuat", sedangkan ikatan hidrogen dan ikatan van der Waals dianggap sebagai ikatan "lemah". Hal yang perlu diperhatikan adalah bahwa ikatan "lemah" yang paling kuat dapat lebih kuat daripada ikatan "kuat" yang paling lemah. Χημικός δεσμός καλείται η ελκτική δύναμη που συνδέει άτομα ή ιόντα, που επιτρέπει το σχηματισμό μορίων (με την ευρεία έννοια) χημικών ουσιών, που περιέχουν δύο ή περισσότερα άτομα. Ο όρος επεκτείνεται επίσης στις ελκτικές αλληλεπιδράσεις μεταξύ των ιόντων ή των μορίων της ίδιας ουσίας, καθώς και στις ελκτικές αλληλεπιδράσεις μεταξύ των ιόντων ή και των «μορίων» διαφορετικών ουσιών, που βρίσκονται σε μείξη ή άλλου είδους επαφή. Ο (ενδομοριακός) χημικός δεσμός δημιουργείται με την ηλεκτροστατική έλξη ανάμεσα σε αντίθετα ηλεκτρικά φορτία, είτε μεταξύ των ηλεκτρονίων και των πυρήνων είτε ως αποτέλεσμα μιας διπολικής έλξης. Η ισχύς των χημικών δεσμών ποικίλει σημαντικά, καθώς υπάρχουν τόσο «ισχυροί δεσμοί», όπως οι ομοιοπολικοί δεσμοί ή οι ετεροπολικοί δεσμοί, αλλά και «ασθενείς δεσμοί», όπως οι , η (London dispersion force) και ο οι δεσμοί υδρογόνου. Αφού τα αντίθετα ηλεκτρικά φορτία έλκονται μέσω μιας απλής ηλεκτρομαγνητικής δύναμης, τα αρνητικά φορτισμένα ηλεκτρόνια που περιφέρονται γύρω από τους πυρήνες και τα θετικά φορτισμένα πρωτόνια των πυρήνων αυτών έλκονται. Ένα ηλεκτρόνιο που βρίσκεται μεταξύ δύο πυρήνων έλκει και έλκεται και από τους δύο. Η έλξη αυτή δημιουργεί ένα χημικό δεσμό. Εξαιτίας του ότι τα υλοκύματα των ηλεκτρονιακών νεφών έχουν μικρότερη μάζα και καταλαμβάνουν πολύ μεγαλύτερο όγκο σε σύγκριση με τους πυρήνες, αυτός ο όγκος που καταλαμβάνεται από τα ηλεκτρονιακά νέφη κρατά τους ατομικούς πυρήνες σε μια σχετική απόσταση, σε σύγκριση με το ίδιο το μέγεθος των πυρήνων αυτών. Αυτό το φαινόμενο περιορίζει την απόσταση μεταξύ των πυρήνων των ατόμων σε ένα χημικό δεσμό. Γενικά, οι ισχυροί χημικοί δεσμοί σχετίζονται με τη συνεισφορά ή και μεταφορά των ηλεκτρονίων μεταξύ των ατόμων που παίρνουν μέρος σε αυτούς τους χημικούς δεσμούς. Τα άτομα στα μόρια, στους κρυστάλλους και στα μέταλλα, ουσιαστικά στην πλειοψηφία της περιβάλλουσας σε μας ύλης, κρατούνται κοντά μεταξύ τους με χημικούς δεσμούς, οι οποίοι καθορίζουν τη δομή και τις ιδιότητες της ύλης αυτής. Wiązanie chemiczne – według klasycznej definicji: każde trwałe połączenie dwóch atomów. Wiązania chemiczne powstają w wyniku uwspólnienia dwóch lub większej liczby elektronów pochodzących z jednego lub obu łączących się atomów albo przeskoku jednego lub większej liczby elektronów z jednego atomu na drugi i tym samym utworzenia pary jonowej. 화학 결합(化學結合)은 원자 또는 의 집합체에서 그 구성 원자들 간에 작용하여, 이를 하나의 단위체로 간주할 수 있게 하는 힘 혹은 결합을 말한다. 화학 결합은 크게 이온 결합, 공유 결합, 금속 결합, 배위 결합 등으로 구분된다. L'enllaç químic és el fenomen fisicoquímic pel qual dos o més àtoms o ions s'uneixen per a formar compostos químics, obtenint així una major estabilitat. Per tant, per norma general, dos àtoms s'enllacen si l'energia assolida en la seva unió és inferior a la que tenia cadascun d'ells per separat. La gran majoria de les substàncies presents en la natura estan formades per conjunts d'àtoms vinculats entre si que, depenent dels tipus d'enllaços que presenten i les seves disposicions espacials, determinen les diferents propietats de les substàncies. Aquests fets atorguen una gran importància a l'estudi de l'enllaç químic, convertint-lo així en una de les disciplines més importants de la química. Com s'ha dit anteriorment, les espècies químiques realitzen unions entre si per a assolir estadis de major estabilitat, tot disminuint l'energia del sistema; aquesta estabilitat se sol donar quan el nombre d'electrons que posseeix un àtom en el seu últim nivell energètic és igual a vuit (ns²np⁶), estructura que coincideix amb la del gas noble més proper en la taula periòdica. A més, perquè aquest obtingui una total estabilitat, haurà de formar un enllaç amb una altra espècie. Així doncs, d'aquesta descripció podem obtenir dues conclusions: la primera, que els gasos nobles (tal com indica el seu nom) no requereixen enllaçar-se amb cap altra substància, ja que són electrònicament estables per si sols, d'aquesta manera, podem trobar àtoms d'heli (He), de neó (Ne), d'argó (Ar), de criptó (Kr) i de xenó (Xe) aïllats; i la segona, la més important i la que atorga el sentit a la disciplina de la química com a ciència bàsica és que tota la resta d'elements químics tendiran a relacionar-se i reaccionar amb d'altres per aconseguir una major estabilitat. L'objectiu fonamental de la química serà doncs l'estudi d'aquestes reaccions, així com aprofundir en la composició de la matèria i el seu comportament. L'enllaç químic és, per tant, la disciplina encarregada de descriure les característiques de les unions entre les espècies químiques i les seves conseqüències, tant a nivell microscòpic com macroscòpic. Хімі́чний зв'язо́к — це взаємодія між атомами, яка утримує їх у молекулі чи твердому тілі. Хімічні зв'язки є результатом взаємодії електронів та ядер атомів і описуються квантовою механікою. В першій третині XX ст. зародилася окрема галузь хімії, предметом якої є вивчення структури молекул і кристалів за допомогою квантово-механічних розрахунків: квантова хімія. Ця галузь набула особливо інтенсивного розвитку протягом кількох останніх десятиріч. Une liaison chimique est une interaction durable entre plusieurs atomes, ions ou molécules, à une distance permettant la stabilisation du système et la formation d'un agrégat ou d'une substance chimique. Les électrons, chargés négativement, gravitent autour d’un noyau constitué de protons chargés positivement. Les deux corps s’attirent du fait de la force électrostatique s’exerçant entre les électrons et les protons. Ainsi, un électron positionné entre deux noyaux sera attiré par les deux corps chargés positivement, et les noyaux seront attirés par l’électron. C'est cette attraction qui constitue la liaison chimique. Cette notion comprend une très grande diversité de phénomènes façonnant la matière. Ainsi, la liaison chimique peut être covalente (normale ou de coordination), ionique (issue de l’attraction entre deux ions de charges opposées), métallique, banane, (a)polaire, (dé)localisée, (non) directionnelle, faible, forte, simple, double, triple, σ, π, δ, φ, à un électron, à trois centres (avec deux électrons ou quatre électrons), à quatre centres, hydrogène, halogène, π-π, cation-π, anion-π, de van der Waals, etc.. Cette variété pose le double problème de la classification et de la description difficiles et non uniformisées des liaisons chimiques. La notion de liaison chimique, par conséquent, peut difficilement être décrite dans sa globalité et génère de nombreuses préconceptions fausses, notamment chez les élèves. De nombreux modèles décrivent ces interactions. Par exemple, la liaison chimique entre deux atomes au sein d'une molécule peut être décrite avec le modèle de Lewis ou avec un modèle quantique, comme la théorie des orbitales moléculaires. Dans les deux cas, l'origine de l'interaction est un partage d'électrons entre les deux atomes. La description d'une liaison chimique doit donc préciser le modèle utilisé et l'énergie de la liaison[Quoi ?]. Les liaisons plus faibles sont expliquées, en général, par des polarités entre des molécules. C'est le cas des interactions très faibles comme les forces de London, qui font partie des forces de van der Waals. De telles forces interprètent le maintien dans un état condensé solide ou liquide de composés moléculaires comme le diiode ou les hydrocarbures. En général, les liaisons les plus fortes sont décrites par un partage ou un transfert d'électrons entre plusieurs atomes. Les atomes composant des molécules, des cristaux, des métaux et des gaz diatomiques sont liés par des liaisons chimiques, qui dictent ainsi les structures et l'ensemble des propriétés de la matière. En kemisk bindning är en attraktion mellan atomer, som möjliggör bildandet av kemiska substanser. Attraktionen beror på att det energimässigt är fördelaktigare för de flesta atomer och joner att vara bundna till lämpliga bindningspartners än att förekomma som obundna partiklar. De olika bindningarnas styrkor varierar avsevärt. De starkaste bindningstyperna är jonbindningar och kovalenta bindningar. Övriga bindningstyper är metallbindning, van der Waals-bindning, vätebindning, dipol-dipolbindning samt jon-dipolbindning. الروابط أو الأواصر الكيميائية في الكيمياء ظاهرة تماسك الذرات في الجزيء أو البلورة أو غير ذلك. وجميع الروابط الكيميائية ترجع لتفاعل الإلكترونات الموجودة في الذرة. وهذه الإلكترونات جزء من المدار الذري للذرة. ولكن في الرابطة تقوم الإلكترونات بتكوين مدار جزيئي بين ذرتين أو أكثر ويتماسك الجزيء. تفاعلات الإلكترونات تنشأ نتيجة القوة الكهرومغناطيسية حيث تتآثر الإلكترونات (سالبة الشحنة) مع نواة الذرة (موجبة الشحنة) وكذلك تتآثر فيما بينها، فتنشأ الروابط بين الذرات، وبعض الخصائص الأخرى مثل المغناطيسية. وتكوّن الذرات رابطة في حالة أن تكون طاقتها بعد الارتباط أقل من طاقتها قبل الارتباط. تتحرك الإلكترونات في الذرة والجزيئات في مستويات للطاقة.
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