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Tag Archives: Appendix

Four elements have new names announced following their recognition last December.

The International Union of Pure and Applied Chemistry officially recognized elements 113, 115, 117, and 118, filling out the seventh row of the periodic table. As is the traditional in chemistry, the naming rights go to the discoverers: scientists at RIKEN in Wako, Japan, named element 113, and a Russian-U.S. collaboration named the others.

These elements are not found in nature as they are all short-lived and highly radioactive. They were all created in high-energy physics laboratories where lighter nuclei were smashed into one another and scientists looked for signature radioactive decays that should come from the new elements.

0608176_ec_periodictable

Credit: E. Otwell

 

Element 113 is “nihonium”, chemical symbol Nh. Its name comes from the Japanese word “Nihon,” (tr: Land of the Rising Sun), a name for Japan.

Element 115 is “moscovium,” chemical symbol Mc, after the Moscow region, home to the Joint Institute for Nuclear Research, where the element was discovered in collaboration with researchers at Lawrence Livermore National Laboratory in California and Oak Ridge National Laboratory in Tennessee.

Element 117 is “tennessine,” chemical symbol Ts, after the home state of Oak Ridge, Vanderbilt University and the University of Tennessee. (Livermorium, Lv, is already element 116.)

Element 118 is “oganesson,” chemical symbol Og, after the Russian physicist Yuri Oganessian, who contributed to the discovery of several superheavy elements.

The proposed names are expected to be confirmed in November, following a period of public consultation.

Links: IUPAC press release; NY Times coverage; Nature news.

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p. 563, Appendix 3C Our Solar System: Orbital Properties of Planets

The units of the ‘Semimajor Axis’ second column are out by a factor of 10; they should be 10^6 km, i.e. millions of kilometers. (The equivalent column is shown correctly in Appendix 3D.)