ytterbium electron configuration

Nevertheless, check the complete configuration and other interesting … Each shell and subshell have a limitation on the amount of electrons that it can carry. Because of its closed-shell electron configuration, its density and melting and boiling points differ significantly from those of most other lanthanides. N45 185. The first series contain the fourteen elements cerium to lutecium (elements 58 through 71) and are called lanthanidesbecause they appear after lanthanum. This means part of the electron configuration has been replaced with the element symbol of the noble gas symbol. The maximum electrons that can be carried by the sub-shell S is 2, by P is 6, by D is 10, and the F sub-shell can carry 14. Valence Electron Potential (-eV): 50.3. Ytterbium Electronic configuration. M4 1576. 70 electrons (green) bind to the nucleus, successively occupying available electron shells (rings). Even though the element is fairly stable, it should be kept in closed containers to protect it from air and moisture. Electron configuration: [Xe]4f 14 6s 2. The electron configuration of the 2+ oxidation state is 4f 14, and this is the reason behind its rather unusual stability. A compound of ytterbium in the +2 oxidation state was first prepared in 1929 by W.K. It is one of the more common rare earths, present at about 2.7 to 8 parts per million in the crust. Ytterbium. The f-block elements in the periodic table appear in two series characterized by the filling of the 4f and 5f orbitals. The chemical symbol for Ytterbium is Yb. : Yb 3+ is enriched in Ca-Al-rich inclusions in meteorites relative to the composition of the solar system. Required fields are marked *. Pages 122-126. Nowadays, this is element is used in the making of memory devices and tunable lasers. Ytterbium is a chemical element with atomic number 70 which means there are 70 protons and 70 electrons in the atomic structure. (1), (2)In 1907, in Paris, George Urbain separated ytterbia into two constituents. Few alloys of Ytterbium are used in dentistry. It is a white silvery, soft, ductile and rare earth metal. Ytterbium compounds are capable of absorbing light in the near infra red part of the electromagnetic spectrum, which has been exploited to convert radiant energy into electrical energy in devices coupled to solar cells. Note the electron configurations of europium and ytterbium: Europium - $\ce{[Xe]} 4f^7 6s^2$ Ytterbium - $\ce{[Xe]} 4f^{14} 6s^2$ In europium, the $4f$ subshell is half-filled, an arrangement that is particularly desirable from a quantum mechanics standpoint. Did you know... SOS Children offer a complete download of this selection for schools for use on schools intranets. Conversely, samarium, europium, and ytterbium gain a 4f electron from the valence electrons to become an R 2+ ion, and their radii increase to 1.19, 1.17, and 1.00 Å, respectively. Isotopes. Materials: Electron Configuration of Ytterbium (Yb) [Complete, Abbreviated, Uses ... Electron Configuration of Ytterbium (Yb) [Complete, Abbreviated, Uses ...,, 10XX,52,11XX,17,12XX,7,13XX,4,15XX,16,3XXX,2,40XX,10,41XX,12,43XX,5,44XX,4,46XX,5,47XX,3,48XX,3,5XXX,23,6XXX,3,71XX,1,8XXX,22,92XX,5,93XX,1,94XX,4,98XX,2,ASTM,171,Atomic-Mass,327,Atomic-Number,436,Atomic-Radius,86,Atomic-Symbol,329,Atomic-Volume,94,Boiling-Point,94,CBS,6,Chemical-Elements,100,Chemical-Symbol,217,CMDS,13,Coefficient-of-Thermal-Expansion,85,Covalent-Radius,87,Crystal-Structure,109,CS,17,CVS,3,Density,309,Elastic-Modulus,30,Electrical-Conductivity,79,Electro-Affinity,87,Electron-Configuration,109,Electronegativity,102,Electrons-per-Shell,112,Enthalpy-of-Fusion,93,Enthalpy-of-Vaporization,95,Group-Number,218,HCS,14,Heat-of-Fusion,87,Heat-of-Vaporization,85,HMCS,16,Ionic-Radius,78,Ionization-Energy,102,Ionization-Potential,101,LCS,21,List,201,MCS,17,MDS,14,Melting-Point,96,MS,4,NCMDBS,6,NCMDS,31,NCS,2,NMDS,8,Oxidation-States,104,Period-Number,107,Properties,40,RCLS,1,RCS,16,RRCLS,3,RRCS,4,SAE,201,Site,2,SMS,5,Specific-Gravity,83,Specific-Heat,92,Specific-Weight,1,Tests,2,Thermal-Conductivity,105,Valence-Electrons,98. The most common isotope is ytterbium-174, which accounts for about 31.8 percent of the … "Melting point of 1097 K. Definitely 1097." Electron Affinity of Ytterbium is 50 kJ/mol. Electron Affinity. M3 1950. It is attacked by the strong acids and reacts slowly with cold water and air. Electron configuration: [Xe] 4f 14 6s 2: Density @ 20 o C: 6.97 g/cm 3: Show more: Heats, Energies, Oxidation, Reactions, Compounds, Radii, Conductivities. The oxide forms a protective layer on the surface when reacted or oxidized in air. The second series (thorium to lawrencium, elements 90 through 103) appears after actinium and are called actinides. Ytterbium is the 44th most abundant element in the Earth's crust. Ytterbium has a bright silvery luster, is soft, malleable, and quite ductile. However, like the other lanthanides, its most common oxidation state is +3, as in its oxide, halides, and other compounds. Electron Configuration Chart for All Elements in the Periodic Table. History. Chemistry Wiki. The Ytterbium atom has a radius of 176 pm and a Van der Waals radius of 242 pm. Chemical properties. Need an editable periodic table to edit? The nucleus consists of 70 protons (red) and 104 neutrons (blue). Oxidation states: +2,3 Major edges What are these symbols? The valence electron configuration of Yb +3 (from YbCl 3) is 4f 13 5s 2 5p 6, which has crucial implications for the chemical behaviour of Yb +3. M5 1528. Chemische Bindung und druckinduzierte Änderung der Elektronenkonfiguration von Ytterbium in β ... Michael Hanfland, Konstantin Klementiev, Yuri Grin, Chemical Bonding and Pressure‐Induced Change of the Electron Configuration of Ytterbium in β‐YbAgGa2., ChemInform, 10.1002/chin.200416016, 35, 16, (2004).

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