. . . . . "Nuclear binding energy in experimental physics is the minimum energy that is required to disassemble the nucleus of an atom into its constituent protons and neutrons, known collectively as nucleons. The binding energy for stable nuclei is always a positive number, as the nucleus must gain energy for the nucleons to move apart from each other. Nucleons are attracted to each other by the strong nuclear force. In theoretical nuclear physics, the nuclear binding energy is considered a negative number. In this context it represents the energy of the nucleus relative to the energy of the constituent nucleons when they are infinitely far apart. Both the experimental and theoretical views are equivalent, with slightly different emphasis on what the binding energy means. The mass of an atomic nucleus is less than the sum of the individual masses of the free constituent protons and neutrons. The difference in mass can be calculated by the Einstein equation, E = mc2, where E is the nuclear binding energy, c is the speed of light, and m is the difference in mass. This 'missing mass' is known as the mass defect, and represents the energy that was released when the nucleus was formed. The term \"nuclear binding energy\" may also refer to the energy balance in processes in which the nucleus splits into fragments composed of more than one nucleon. If new binding energy is available when light nuclei fuse (nuclear fusion), or when heavy nuclei split (nuclear fission), either process can result in release of this binding energy. This energy may be made available as nuclear energy and can be used to produce electricity, as in nuclear power, or in a nuclear weapon. When a large nucleus splits into pieces, excess energy is emitted as gamma rays and the kinetic energy of various ejected particles (nuclear fission products). These nuclear binding energies and forces are on the order of one million times greater than the electron binding energies of light atoms like hydrogen."@en . "La liaison nucl\u00E9aire est le ph\u00E9nom\u00E8ne qui assure la coh\u00E9sion d'un noyau atomique. Le noyau atomique est compos\u00E9 de protons de charge \u00E9lectrique positive, et de neutrons de charge \u00E9lectrique nulle. La r\u00E9pulsion coulombienne tend \u00E0 s\u00E9parer les protons. C'est la force nucl\u00E9aire qui permet d'assurer la stabilit\u00E9 du noyau."@fr . . . . . . . . . "Nuclear binding energy in experimental physics is the minimum energy that is required to disassemble the nucleus of an atom into its constituent protons and neutrons, known collectively as nucleons. The binding energy for stable nuclei is always a positive number, as the nucleus must gain energy for the nucleons to move apart from each other. Nucleons are attracted to each other by the strong nuclear force. In theoretical nuclear physics, the nuclear binding energy is considered a negative number. In this context it represents the energy of the nucleus relative to the energy of the constituent nucleons when they are infinitely far apart. Both the experimental and theoretical views are equivalent, with slightly different emphasis on what the binding energy means."@en . . . "Energi pengikatan inti (nuclear binding energy) atau energi pengikatan nuklir adalah energi terkecil yang dibutuhkan untuk memecah sebuah atom menjadi bagian-bagian penyusunnya, yaitu proton dan neutron (keduanya juga disebut nukleon). Contohnya, inti atom deuterium (2H), sebuah isotop hidrogen yang terdiri dari satu proton dan satu neutron, dapat dipisahkan dengan energi sebesar 2,23 MeV. Energi pengikatan inti juga memiliki definisi lain yang setara, yaitu energi yang dilepaskan ketika menggabungkan proton dan neutron menjadi sebuah inti."@in . . . . . . . . . . "\u6838\u7ED3\u5408\u80FD"@zh . . . . "\u042F\u0301\u0434\u0435\u0440\u043D\u0430 \u0435\u043D\u0435\u0301\u0440\u0433\u0456\u044F (\u0430\u0442\u043E\u043C\u043D\u0430 \u0435\u043D\u0435\u0440\u0433\u0456\u044F) \u2014 \u0432\u043D\u0443\u0442\u0440\u0456\u0448\u043D\u044F \u0435\u043D\u0435\u0440\u0433\u0456\u044F \u0430\u0442\u043E\u043C\u043D\u0438\u0445 \u044F\u0434\u0435\u0440, \u0449\u043E \u0432\u0438\u0434\u0456\u043B\u044F\u0454\u0442\u044C\u0441\u044F \u043F\u0440\u0438 \u0434\u0435\u044F\u043A\u0438\u0445 \u044F\u0434\u0435\u0440\u043D\u0438\u0445 \u043F\u0435\u0440\u0435\u0442\u0432\u043E\u0440\u0435\u043D\u043D\u044F\u0445. \u0412\u0438\u043A\u043E\u0440\u0438\u0441\u0442\u0430\u043D\u043D\u044F \u044F\u0434\u0435\u0440\u043D\u043E\u0457 \u0435\u043D\u0435\u0440\u0433\u0456\u0457 \u0437\u0430\u0441\u043D\u043E\u0432\u0430\u043D\u043E \u043D\u0430 \u0437\u0434\u0456\u0439\u0441\u043D\u0435\u043D\u043D\u0456 \u043B\u0430\u043D\u0446\u044E\u0433\u043E\u0432\u0438\u0445 \u0440\u0435\u0430\u043A\u0446\u0456\u0439 \u043F\u043E\u0434\u0456\u043B\u0443 \u0432\u0430\u0436\u043A\u0438\u0445 \u044F\u0434\u0435\u0440 \u0456 \u0440\u0435\u0430\u043A\u0446\u0456\u0439 \u0442\u0435\u0440\u043C\u043E\u044F\u0434\u0435\u0440\u043D\u043E\u0433\u043E \u0441\u0438\u043D\u0442\u0435\u0437\u0443 \u043B\u0435\u0433\u043A\u0438\u0445 \u044F\u0434\u0435\u0440."@uk . "Jadern\u00E1 energie je energie v\u00E1zan\u00E1 v j\u00E1d\u0159e atomu a lze ji uvolnit pomoc\u00ED jadern\u00FDch reakc\u00ED. Nadnesen\u011B b\u00FDv\u00E1 ozna\u010Dov\u00E1na tak\u00E9 jako atomov\u00E1 energie. Prost\u0159ednictv\u00EDm speci\u00E1ln\u00EDch za\u0159\u00EDzen\u00ED je mo\u017En\u00E9 ji vyu\u017E\u00EDvat, p\u0159\u00EDslu\u0161n\u00E9 technick\u00E9 a ekonomick\u00E9 odv\u011Btv\u00ED se ozna\u010Duje jako jadern\u00E1 energetika. Fyzik\u00E1ln\u00ED principy vedouc\u00ED k z\u00EDsk\u00E1n\u00ED jadern\u00E9 energie jsou \u0161t\u011Bpn\u00E1 reakce, radioaktivn\u00ED rozpad a termojadern\u00E1 f\u00FAze. Jadern\u00E9 zdroje maj\u00ED nyn\u00ED p\u0159ibli\u017En\u011B 11% pod\u00EDl na sv\u011Btov\u00E9 v\u00FDrob\u011B elekt\u0159iny a p\u0159ibli\u017En\u011B 4,5% pod\u00EDl na spot\u0159eb\u011B prim\u00E1rn\u00EDch zdroj\u016F energie celkov\u011B (2013). Jadern\u00E1 energie z\u00EDskan\u00E1 pomoc\u00ED \u0161t\u011Bpn\u00FDch jadern\u00FDch reaktor\u016F nepat\u0159\u00ED mezi obnoviteln\u00E9 zdroje energie, nebo\u0165 sv\u011Btov\u00E9 z\u00E1soby uranov\u00E9 rudy jsou vy\u010Derpateln\u00E9 a spot\u0159ebovan\u00E9 palivo se zat\u00EDm ve v\u011Bt\u0161\u00ED m\u00ED\u0159e nevyu\u017E\u00EDv\u00E1. V budoucnu se v\u0161ak d\u00E1 o\u010Dek\u00E1vat rozvoj tzv. rychl\u00FDch reaktor\u016F, kter\u00E9 pracuj\u00ED s uzav\u0159en\u00FDm palivov\u00FDm cyklem. T\u00EDm by se doba mo\u017En\u00E9ho vyu\u017Eit\u00ED \u0161t\u011Bpn\u00E9 jadern\u00E9 reakce zna\u010Dn\u011B prodlou\u017Eila. Naopak geoterm\u00E1ln\u00ED energie, vznikaj\u00EDc\u00ED v zemsk\u00E9m j\u00E1d\u0159e rozpadem radioaktivn\u00EDch l\u00E1tek, mezi obnoviteln\u00E9 zdroje energie pat\u0159\u00ED. Stejn\u011B tak tomu bude i v p\u0159\u00EDpad\u011B termojadern\u00E9 f\u00FAze (pokud v budoucnu dojde k energetick\u00E9mu vyu\u017Eit\u00ED), nebo\u0165 z\u00E1soby vod\u00EDku jsou prakticky nevy\u010Derpateln\u00E9."@cs . . . . . . . . . . . . . . . . . . . . "\u042F\u0301\u0434\u0435\u0440\u043D\u0430\u044F \u044D\u043D\u0435\u0301\u0440\u0433\u0438\u044F (\u0430\u0301\u0442\u043E\u043C\u043D\u0430\u044F \u044D\u043D\u0435\u0301\u0440\u0433\u0438\u044F) \u2014 \u044D\u043D\u0435\u0440\u0433\u0438\u044F, \u0441\u043E\u0434\u0435\u0440\u0436\u0430\u0449\u0430\u044F\u0441\u044F \u0432 \u0430\u0442\u043E\u043C\u043D\u044B\u0445 \u044F\u0434\u0440\u0430\u0445 \u0438 \u0432\u044B\u0434\u0435\u043B\u044F\u0435\u043C\u0430\u044F \u043F\u0440\u0438 \u044F\u0434\u0435\u0440\u043D\u044B\u0445 \u0440\u0435\u0430\u043A\u0446\u0438\u044F\u0445 \u0438 \u0440\u0430\u0434\u0438\u043E\u0430\u043A\u0442\u0438\u0432\u043D\u043E\u043C \u0440\u0430\u0441\u043F\u0430\u0434\u0435. \u0412 \u043F\u0440\u0438\u0440\u043E\u0434\u0435 \u044F\u0434\u0435\u0440\u043D\u0430\u044F \u044D\u043D\u0435\u0440\u0433\u0438\u044F \u0432\u044B\u0434\u0435\u043B\u044F\u0435\u0442\u0441\u044F \u0432 \u0437\u0432\u0451\u0437\u0434\u0430\u0445, \u0430 \u0447\u0435\u043B\u043E\u0432\u0435\u043A\u043E\u043C \u043F\u0440\u0438\u043C\u0435\u043D\u044F\u0435\u0442\u0441\u044F, \u0432 \u043E\u0441\u043D\u043E\u0432\u043D\u043E\u043C, \u0432 \u044F\u0434\u0435\u0440\u043D\u043E\u043C \u043E\u0440\u0443\u0436\u0438\u0438 \u0438 \u044F\u0434\u0435\u0440\u043D\u043E\u0439 \u044D\u043D\u0435\u0440\u0433\u0435\u0442\u0438\u043A\u0435, \u0432 \u0447\u0430\u0441\u0442\u043D\u043E\u0441\u0442\u0438, \u043D\u0430 \u0430\u0442\u043E\u043C\u043D\u044B\u0445 \u044D\u043B\u0435\u043A\u0442\u0440\u043E\u0441\u0442\u0430\u043D\u0446\u0438\u044F\u0445."@ru . "En f\u00EDsica y en qu\u00EDmica, la energ\u00EDa de enlace es la m\u00EDnima energ\u00EDa necesaria para descomponer un objeto en cada una de sus partes. La energ\u00EDa de enlace nuclear o energ\u00EDa de ligadura nuclear es la diferencia entre la energ\u00EDa del elemento y la energ\u00EDa del mismo n\u00FAmero de protones y neutrones consideradas individualmente. Est\u00E1 dada por la interacci\u00F3n nuclear fuerte y se puede medir por la cantidad de energ\u00EDa necesaria para descomponer el n\u00FAcleo en sus protones y neutrones separados. Se puede categorizar la masa de un cuerpo como un tipo de energ\u00EDa, por lo tanto al liberarse la energ\u00EDa de enlace nuclear entre dos part\u00EDculas, \u00E9stas pierden una parte de su masa, la masa perdida es realmente poca. Es decir, la uni\u00F3n de dos part\u00EDculas tiene una masa menor comparada con la masa de dichas part\u00EDculas medida individualmente."@es . . . . . "Med k\u00E4rnenergi eller nukle\u00E4r energi avses den bindningsenergi som h\u00E5ller atomk\u00E4rnorna samman. Denna energi kan frig\u00F6ras genom tre exoenergetiska (eller exoterma) processer: \n* Radioaktivt s\u00F6nderfall, d\u00E4r en neutron eller proton i en radioaktiv k\u00E4rna omvandlas till en proton respektive neutron, varvid en neutrino, elektromagnetisk str\u00E5lning, samt vanligen en varvid \u00E4ven en elektron eller positron uppst\u00E5r. \n* Fusion, sammanslagning, d\u00E4r tv\u00E5 atomk\u00E4rnor sm\u00E4lter samman till en tyngre k\u00E4rna. \n* Fission, klyvning av en tung k\u00E4rna i tv\u00E5 (eller mer s\u00E4llan tre) l\u00E4ttare k\u00E4rnor."@sv . 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"Jadern\u00E1 energie je energie v\u00E1zan\u00E1 v j\u00E1d\u0159e atomu a lze ji uvolnit pomoc\u00ED jadern\u00FDch reakc\u00ED. Nadnesen\u011B b\u00FDv\u00E1 ozna\u010Dov\u00E1na tak\u00E9 jako atomov\u00E1 energie. Prost\u0159ednictv\u00EDm speci\u00E1ln\u00EDch za\u0159\u00EDzen\u00ED je mo\u017En\u00E9 ji vyu\u017E\u00EDvat, p\u0159\u00EDslu\u0161n\u00E9 technick\u00E9 a ekonomick\u00E9 odv\u011Btv\u00ED se ozna\u010Duje jako jadern\u00E1 energetika. Fyzik\u00E1ln\u00ED principy vedouc\u00ED k z\u00EDsk\u00E1n\u00ED jadern\u00E9 energie jsou \u0161t\u011Bpn\u00E1 reakce, radioaktivn\u00ED rozpad a termojadern\u00E1 f\u00FAze. Jadern\u00E9 zdroje maj\u00ED nyn\u00ED p\u0159ibli\u017En\u011B 11% pod\u00EDl na sv\u011Btov\u00E9 v\u00FDrob\u011B elekt\u0159iny a p\u0159ibli\u017En\u011B 4,5% pod\u00EDl na spot\u0159eb\u011B prim\u00E1rn\u00EDch zdroj\u016F energie celkov\u011B (2013)."@cs . . . . . . . . "\u6838\u7ED3\u5408\u80FD\uFF08\u82F1\u8A9E\uFF1ANuclear binding energy\uFF09\uFF0C\u53C8\u7A31\u70BA\u539F\u5B50\u80FD\u6216\u6838\u80FD\uFF0C\u662F\u7531\u7EC4\u6210\u539F\u5B50\u6838\u7684\u7C92\u5B50\u4E4B\u95F4\u53D1\u751F\u7684\u53CD\u5E94\u91CA\u653E\u51FA\u7684\u80FD\u91CF\u3002\u539F\u5B50\u80FD\u6BD4\u5316\u5B66\u53CD\u5E94\u4E2D\u91CA\u653E\u7684\u70ED\u80FD\u8981\u5927\u5C06\u8FD15\u5343\u4E07\u500D\uFF1A\u94C0\u6838\u88C2\u53D8\u7684\u8FD9\u79CD\u539F\u5B50\u80FD\u91CA\u653E\u5F62\u5F0F\u7EA6\u4E3A200,000,000\u7535\u5B50\u4F0F\u7279\uFF0C\u800C\u78B3\u7684\u71C3\u70E7\u8FD9\u79CD\u5316\u5B66\u53CD\u5E94\u80FD\u91CF\u4EC5\u653E\u51FA4\uFF0E1\u7535\u5B50\u4F0F\u7279\u3002 1905\u5E74\uFF0C\u963F\u5C14\u4F2F\u7279\u00B7\u7231\u56E0\u65AF\u5766\u63D0\u51FA\u72ED\u4E49\u76F8\u5BF9\u8BBA\uFF0C\u4E4B\u540E\u4F5C\u4E3A\u63A8\u8BBA\uFF0C\u53C8\u63D0\u51FA\u8D28\u80FD\u65B9\u7A0BE=mc\u00B2\uFF0C\uFF08\u5176\u4E2DE=\u80FD\u91CF\uFF0Cm=\u8D28\u91CF\uFF0Cc=\u5149\u901F\u5E38\u91CF\uFF09\u3002\u81EA\u6B64\u6838\u80FD\u5F97\u5230\u79D1\u5B66\u7684\u89E3\u91CA\u548C\u5F00\u53D1\u5229\u7528\u3002"@zh . . . "\u6838\u7ED3\u5408\u80FD\uFF08\u82F1\u8A9E\uFF1ANuclear binding energy\uFF09\uFF0C\u53C8\u7A31\u70BA\u539F\u5B50\u80FD\u6216\u6838\u80FD\uFF0C\u662F\u7531\u7EC4\u6210\u539F\u5B50\u6838\u7684\u7C92\u5B50\u4E4B\u95F4\u53D1\u751F\u7684\u53CD\u5E94\u91CA\u653E\u51FA\u7684\u80FD\u91CF\u3002\u539F\u5B50\u80FD\u6BD4\u5316\u5B66\u53CD\u5E94\u4E2D\u91CA\u653E\u7684\u70ED\u80FD\u8981\u5927\u5C06\u8FD15\u5343\u4E07\u500D\uFF1A\u94C0\u6838\u88C2\u53D8\u7684\u8FD9\u79CD\u539F\u5B50\u80FD\u91CA\u653E\u5F62\u5F0F\u7EA6\u4E3A200,000,000\u7535\u5B50\u4F0F\u7279\uFF0C\u800C\u78B3\u7684\u71C3\u70E7\u8FD9\u79CD\u5316\u5B66\u53CD\u5E94\u80FD\u91CF\u4EC5\u653E\u51FA4\uFF0E1\u7535\u5B50\u4F0F\u7279\u3002 1905\u5E74\uFF0C\u963F\u5C14\u4F2F\u7279\u00B7\u7231\u56E0\u65AF\u5766\u63D0\u51FA\u72ED\u4E49\u76F8\u5BF9\u8BBA\uFF0C\u4E4B\u540E\u4F5C\u4E3A\u63A8\u8BBA\uFF0C\u53C8\u63D0\u51FA\u8D28\u80FD\u65B9\u7A0BE=mc\u00B2\uFF0C\uFF08\u5176\u4E2DE=\u80FD\u91CF\uFF0Cm=\u8D28\u91CF\uFF0Cc=\u5149\u901F\u5E38\u91CF\uFF09\u3002\u81EA\u6B64\u6838\u80FD\u5F97\u5230\u79D1\u5B66\u7684\u89E3\u91CA\u548C\u5F00\u53D1\u5229\u7528\u3002"@zh . . . "1117458407"^^ . . . . "Energia j\u0105drowa \u2013 energia wydzielana podczas przemian j\u0105drowych. Uwalnianie si\u0119 energii podczas tych przemian zwi\u0105zane jest z r\u00F3\u017Cnicami w energii wi\u0105zania poszczeg\u00F3lnych j\u0105der atomowych."@pl . . . . . "\u042F\u0434\u0435\u0440\u043D\u0430\u044F \u044D\u043D\u0435\u0440\u0433\u0438\u044F"@ru . . . . . . . . "La liaison nucl\u00E9aire est le ph\u00E9nom\u00E8ne qui assure la coh\u00E9sion d'un noyau atomique. Le noyau atomique est compos\u00E9 de protons de charge \u00E9lectrique positive, et de neutrons de charge \u00E9lectrique nulle. La r\u00E9pulsion coulombienne tend \u00E0 s\u00E9parer les protons. C'est la force nucl\u00E9aire qui permet d'assurer la stabilit\u00E9 du noyau."@fr . . . . "Nuclear binding energy"@en . "Energ\u00EDa de enlace nuclear"@es . . . . . . . . . . . . . . . "\u042F\u0301\u0434\u0435\u0440\u043D\u0430 \u0435\u043D\u0435\u0301\u0440\u0433\u0456\u044F (\u0430\u0442\u043E\u043C\u043D\u0430 \u0435\u043D\u0435\u0440\u0433\u0456\u044F) \u2014 \u0432\u043D\u0443\u0442\u0440\u0456\u0448\u043D\u044F \u0435\u043D\u0435\u0440\u0433\u0456\u044F \u0430\u0442\u043E\u043C\u043D\u0438\u0445 \u044F\u0434\u0435\u0440, \u0449\u043E \u0432\u0438\u0434\u0456\u043B\u044F\u0454\u0442\u044C\u0441\u044F \u043F\u0440\u0438 \u0434\u0435\u044F\u043A\u0438\u0445 \u044F\u0434\u0435\u0440\u043D\u0438\u0445 \u043F\u0435\u0440\u0435\u0442\u0432\u043E\u0440\u0435\u043D\u043D\u044F\u0445. \u0412\u0438\u043A\u043E\u0440\u0438\u0441\u0442\u0430\u043D\u043D\u044F \u044F\u0434\u0435\u0440\u043D\u043E\u0457 \u0435\u043D\u0435\u0440\u0433\u0456\u0457 \u0437\u0430\u0441\u043D\u043E\u0432\u0430\u043D\u043E \u043D\u0430 \u0437\u0434\u0456\u0439\u0441\u043D\u0435\u043D\u043D\u0456 \u043B\u0430\u043D\u0446\u044E\u0433\u043E\u0432\u0438\u0445 \u0440\u0435\u0430\u043A\u0446\u0456\u0439 \u043F\u043E\u0434\u0456\u043B\u0443 \u0432\u0430\u0436\u043A\u0438\u0445 \u044F\u0434\u0435\u0440 \u0456 \u0440\u0435\u0430\u043A\u0446\u0456\u0439 \u0442\u0435\u0440\u043C\u043E\u044F\u0434\u0435\u0440\u043D\u043E\u0433\u043E \u0441\u0438\u043D\u0442\u0435\u0437\u0443 \u043B\u0435\u0433\u043A\u0438\u0445 \u044F\u0434\u0435\u0440."@uk . . . . . . . "3043836"^^ . . . . . . . . . . . . "Med k\u00E4rnenergi eller nukle\u00E4r energi avses den bindningsenergi som h\u00E5ller atomk\u00E4rnorna samman. Denna energi kan frig\u00F6ras genom tre exoenergetiska (eller exoterma) processer: \n* Radioaktivt s\u00F6nderfall, d\u00E4r en neutron eller proton i en radioaktiv k\u00E4rna omvandlas till en proton respektive neutron, varvid en neutrino, elektromagnetisk str\u00E5lning, samt vanligen en varvid \u00E4ven en elektron eller positron uppst\u00E5r. \n* Fusion, sammanslagning, d\u00E4r tv\u00E5 atomk\u00E4rnor sm\u00E4lter samman till en tyngre k\u00E4rna. \n* Fission, klyvning av en tung k\u00E4rna i tv\u00E5 (eller mer s\u00E4llan tre) l\u00E4ttare k\u00E4rnor. K\u00E4rnenergin bidrar till atomk\u00E4rnornas massa. Omvandlingen k\u00E4rnmassa till fri energi sker enligt den ber\u00F6mda E = mc2 formeln, h\u00E4r skriven som \u0394E = \u0394mc2, d\u00E4r \u0394E = frigjord energi, \u0394m = masskillnaden, och c = ljushastigheten i vakuum (en fysikalisk konstant). K\u00E4rnenergi uppt\u00E4cktes f\u00F6rst av den franske fysikern Henri Becquerel \u00E5r 1896, d\u00E5 han fann att fotografiska pl\u00E5tar, som hade f\u00F6rvarats m\u00F6rkt n\u00E4ra uran blev sv\u00E4rtade som r\u00F6ntgenpl\u00E5tar, vilket helt nyligen hade uppt\u00E4ckts 1895."@sv . . . . "\u0410\u0442\u043E\u043C\u043D\u0430 \u0435\u043D\u0435\u0440\u0433\u0456\u044F"@uk . . "Energi pengikatan inti (nuclear binding energy) atau energi pengikatan nuklir adalah energi terkecil yang dibutuhkan untuk memecah sebuah atom menjadi bagian-bagian penyusunnya, yaitu proton dan neutron (keduanya juga disebut nukleon). Contohnya, inti atom deuterium (2H), sebuah isotop hidrogen yang terdiri dari satu proton dan satu neutron, dapat dipisahkan dengan energi sebesar 2,23 MeV. Energi pengikatan inti juga memiliki definisi lain yang setara, yaitu energi yang dilepaskan ketika menggabungkan proton dan neutron menjadi sebuah inti."@in . . . . . "Energi pengikatan inti"@in . . . . . "Energia j\u0105drowa"@pl . "K\u00E4rnenergi"@sv . . . 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"Jadern\u00E1 energie"@cs . . . . . "En f\u00EDsica y en qu\u00EDmica, la energ\u00EDa de enlace es la m\u00EDnima energ\u00EDa necesaria para descomponer un objeto en cada una de sus partes. La energ\u00EDa de enlace nuclear o energ\u00EDa de ligadura nuclear es la diferencia entre la energ\u00EDa del elemento y la energ\u00EDa del mismo n\u00FAmero de protones y neutrones consideradas individualmente. Est\u00E1 dada por la interacci\u00F3n nuclear fuerte y se puede medir por la cantidad de energ\u00EDa necesaria para descomponer el n\u00FAcleo en sus protones y neutrones separados."@es . . . . . . . . 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"54893"^^ . . . . . . . . . . . . . . . . . . . "Liaison nucl\u00E9aire"@fr . "\u0637\u0627\u0642\u0629 \u0627\u0644\u062A\u0631\u0627\u0628\u0637 \u0627\u0644\u0646\u0648\u0648\u064A"@ar . . . . . . . . . . . "Energia j\u0105drowa \u2013 energia wydzielana podczas przemian j\u0105drowych. Uwalnianie si\u0119 energii podczas tych przemian zwi\u0105zane jest z r\u00F3\u017Cnicami w energii wi\u0105zania poszczeg\u00F3lnych j\u0105der atomowych."@pl . . . . . . . . . .