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Boro

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Boron
5B
-

B

Al
Hydrogen (other non-metal)
Helium (noble gas)
Lithium (alkali metal)
Beryllium (alkaline earth metal)
Boron (metalloid)
Carbon (other non-metal)
Nitrogen (other non-metal)
Oxygen (other non-metal)
Fluorine (halogen)
Neon (noble gas)
Sodium (alkali metal)
Magnesium (alkaline earth metal)
Aluminium (post-transition metal)
Silicon (metalloid)
Phosphorus (other non-metal)
Sulfur (other non-metal)
Chlorine (halogen)
Argon (noble gas)
Potassium (alkali metal)
Calcium (alkaline earth metal)
Scandium (transition metal)
Titanium (transition metal)
Vanadium (transition metal)
Chromium (transition metal)
Manganese (transition metal)
Iron (transition metal)
Cobalt (transition metal)
Nickel (transition metal)
Copper (transition metal)
Zinc (transition metal)
Gallium (post-transition metal)
Germanium (metalloid)
Arsenic (metalloid)
Selenium (other non-metal)
Bromine (halogen)
Krypton (noble gas)
Rubidium (alkali metal)
Strontium (alkaline earth metal)
Yttrium (transition metal)
Zirconium (transition metal)
Niobium (transition metal)
Molybdenum (transition metal)
Technetium (transition metal)
Ruthenium (transition metal)
Rhodium (transition metal)
Palladium (transition metal)
Silver (transition metal)
Cadmium (transition metal)
Indium (post-transition metal)
Tin (post-transition metal)
Antimony (metalloid)
Tellurium (metalloid)
Iodine (halogen)
Xenon (noble gas)
Caesium (alkali metal)
Barium (alkaline earth metal)
Lanthanum (lanthanoid)
Cerium (lanthanoid)
Praseodymium (lanthanoid)
Neodymium (lanthanoid)
Promethium (lanthanoid)
Samarium (lanthanoid)
Europium (lanthanoid)
Gadolinium (lanthanoid)
Terbium (lanthanoid)
Dysprosium (lanthanoid)
Holmium (lanthanoid)
Erbium (lanthanoid)
Thulium (lanthanoid)
Ytterbium (lanthanoid)
Lutetium (lanthanoid)
Hafnium (transition metal)
Tantalum (transition metal)
Tungsten (transition metal)
Rhenium (transition metal)
Osmium (transition metal)
Iridium (transition metal)
Platinum (transition metal)
Gold (transition metal)
Mercury (transition metal)
Thallium (post-transition metal)
Lead (post-transition metal)
Bismuth (post-transition metal)
Polonium (post-transition metal)
Astatine (halogen)
Radon (noble gas)
Francium (alkali metal)
Radium (alkaline earth metal)
Actinium (actinoid)
Thorium (actinoid)
Protactinium (actinoid)
Uranium (actinoid)
Neptunium (actinoid)
Plutonium (actinoid)
Americium (actinoid)
Curium (actinoid)
Berkelium (actinoid)
Californium (actinoid)
Einsteinium (actinoid)
Fermium (actinoid)
Mendelevium (actinoid)
Nobelium (actinoid)
Lawrencium (actinoid)
Rutherfordium (transition metal)
Dubnium (transition metal)
Seaborgium (transition metal)
Bohrium (transition metal)
Hassium (transition metal)
Meitnerium (unknown chemical properties)
Darmstadtium (unknown chemical properties)
Roentgenium (unknown chemical properties)
Copernicium (transition metal)
Ununtrium (unknown chemical properties)
Flerovium (unknown chemical properties)
Ununpentium (unknown chemical properties)
Livermorium (unknown chemical properties)
Ununseptium (unknown chemical properties)
Ununoctium (unknown chemical properties)
berylliumboroncarbon
Panagway
black-brown
Kinatibuk-ang mga kinaiya
Ngalan,simbolo,kaiphan boron, B, 5
Paglitok /ˈbɔərɒn/
Kategoriyang elemento metalloid
Group,period,block 13,2,p
Gibug-aton sa atomo 10.81(1)
Kontorno sa elektron [He] 2s22p1
2, 3
Electron shells of boron (2, 3)
Electron shells of boron (2, 3)
History
Pagkadiskobre Joseph Louis Gay-LussacandLouis Jacques Thénard[1](30 June 1808)
First isolation Humphry Davy[2](9 July 1808)
Physical properties
Phase magahi
Liquiddensityatm.p. 2.08 g·cm−3
Melting point 2349K, 2076 °C, 3769 °F
Boiling point 4200 K, 3927 °C, 7101 °F
Heat of fusion 50.2kJ·mol−1
Heat of vaporization 480 kJ·mol−1
Molar heat capacity 11.087 J·mol−1·K−1
Vapor pressure
P (Pa) 1 10 100 1 k 10 k 100 k
at T (K) 2348 2562 2822 3141 3545 4072
Atomic properties
Oxidation states 3,2, 1[3]
(mildlyacidicoxide)
Electronegativity 2.04 (Pauling scale)
Ionization energies
(more)
1st: 800.6 kJ·mol−1
2nd: 2427.1 kJ·mol−1
3rd: 3659.7 kJ·mol−1
Atomic radius 90pm
Covalent radius 84±3pm
Van der Waals radius 192pm
Miscellanea
Crystal structure rhombohedral
Boron has a rhombohedral crystal structure
Magnetic ordering diamagnetic[4]
Electrical resistivity (20 °C) ~106Ω·m
Thermal conductivity 27.4 W·m−1·K−1
Thermal expansion (25 °C) (β form) 5–7[5]µm·m−1·K−1
Speed of sound(thin rod) (20 °C) 16,200 m·s−1
Mohs hardness ~9.5
CAS registry number 7440-42-8
Most stable isotopes
Main article:Isotopes of boron
iso NA half-life DM DE(MeV) DP
10B 19.9(7)%* 10B isstablewith 5neutrons[6]
11B 80.1(7)%* 11B isstablewith 6neutrons[6]
*Boron-10 content may be as low as 19.1% and as
high as 20.3% in natural samples. Boron-11 is
the remainder in such cases.
[7]
·r

Angboro(Ininglesboron) mao angelementong kimikosatalaang peryodikonga may simbolo ngaBug kaiphan nga atomik 5. Ang boro mao angmetalloid.

Ang mga gi basihan niini

[usba|usba ang wikitext]
  1. Gay Lussac, J.L. and Thenard, L.J. (1808)"Sur la décomposition et la recomposition de l'acide boracique,"Annales de chimie[later: Annales de chemie et de physique], vol. 68, pp. 169–174.
  2. Davy H (1809)."An account of some new analytical researches on the nature of certain bodies, particularly the alkalies, phosphorus, sulphur, carbonaceous matter, and the acids hitherto undecomposed: with some general observations on chemical theory".Philosophical Transactions of the Royal Society of London.99:33–104.
  3. Zhang, K.Q.; Guo, B.; Braun, V.; Dulick, M.; Bernath, P.F. (1995)."Infrared Emission Spectroscopy of BF and AIF"(PDF).J. Molecular Spectroscopy.170:82.Bibcode:1995JMoSp.170...82Z.doi:10.1006/jmsp.1995.1058.{{cite journal}}:CS1 maint: multiple names: authors list (link)
  4. Lide, David R. (ed.) (2000).Magnetic susceptibility of the elements and inorganic compounds, in Handbook of Chemistry and Physics(PDF).CRC press.ISBN0849304814.{{cite book}}:|author=has generic name (help)
  5. Holcombe Jr., C. E.; Smith, D. D.; Lorc, J. D.; Duerlesen, W. K.; Carpenter; D. A. (October 1973). "Physical-Chemical Properties of beta-Rhombohedral Boron".High Temp. Sci.5(5): 349–57.{{cite journal}}:CS1 maint: multiple names: authors list (link)
  6. 6.06.1"Atomic Weights and Isotopic Compositions for All Elements".National Institute of Standards and Technology.Retrieved2008-09-21.
  7. Szegedi, S.; Váradi, M.; Buczkó, Cs. M.; Várnagy, M.; Sztaricskai, T. (1990). "Determination of boron in glass by neutron transmission method".Journal of Radioanalytical and Nuclear Chemistry Letters.146(3): 177.doi:10.1007/BF02165219.


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