Friday, March 20, 2020

Largest Counties by Population in the United States

Largest Counties by Population in the United States Forty-three counties in the United States have a population greater than 1 million, ranked by population. The data for this list is based on mid-2016 population estimates from the United States Census Bureau. In 2010, only 39 counties in the United States had a population of more than 1 million, and Los Angeles County had fewer than 10 million residents. The top five list remains the same as in 2010.   From this list, you can see that although much of the countrys population is concentrated in the megalopolis region of the Northeast, there is considerable population in the metropolitan regions of the Sun Belt from Texas to California. These heavily populated cities of Texas, Arizona, and California continue to experience phenomenal growth as population declines in places like the Rust Belt continue.   Largest Counties by Population Los Angeles County, CA: 10,116,705Cook County, IL: 5,246,456Harris County, TX: 4,441,370Maricopa County, AZ: 4,087,191San Diego County, California: 3,263,431Orange County, California: 3,145,515Miami-Dade County, Florida: 2,662,874Kings County, New York: 2,621,793Dallas County, Texas: 2,518,638Riverside County, California: 2,329,271Queens County, New York: 2,321,580San Bernardino County, California: 2,112,619King County, Washington: 2,079,967Clark County, Nevada: 2,069,681Tarrant County, Texas: 1,945,360Santa Clara County, California: 1,894,605Broward County, Florida: 1,869,235Bexar County, Texas: 1,855,866Wayne County, Michigan: 1,764,804New York County, New York: 1,636,268Alameda County, California: 1,610,921Middlesex County, Massachusetts: 1,570,315Philadelphia County, Pennsylvania: 1,560,297Suffolk County, New York: 1,502,968Sacramento County, California: 1,482,026Bronx County, New York: 1,438,159Palm Beach County, Florida: 1,397,710Nassau County, New York: 1,358,627Hillsborough C ounty, Florida: 1,316,298 Cuyahoga County, Ohio: 1,259,828Orange County, Florida: 1,253,001Oakland County, Michigan: 1,237,868Franklin County, Ohio: 1,231,393Allegheny County, Pennsylvania: 1,231,255Hennepin County, Minnesota: 1,212,064Travis County, Texas: 1,151,145Fairfax County, Virginia: 1,137,538Contra Costa County, California: 1,111,339Salt Lake County, Utah: 1,091,742Montgomery County, Maryland: 1,030,447  Mecklenburg County, North Carolina: 1,012,539Pima County, Arizona: 1,004,516  St. Louis County, Missouri: 1,001,876

Wednesday, March 4, 2020

Livermorium Facts - Element 116 or Lv

Livermorium Facts - Element 116 or Lv Livermorium (Lv) is element 116 on the periodic table of the elements. Livermorium is a highly radioactive man-made element (not observed in nature). Heres a collection of interesting facts about element 116, as well as a look at its history, properties, and uses: Interesting Livermorium Facts Livermorium was first produced in July 19, 2000 by scientists working jointly at the Lawrence Livermore National Laboratory (USA) and Joint Institute for Nuclear Research (Dubna, Russia). At the Dubna facility, a single atom of livermorium-293 was observed from bombarding a curium-248 target with calcium-48 ions. The element 116 atom decayed into flerovium-289, via alpha decay.Researchers at Lawrence Livermore had announced synthesis of element 116 in 1999, by fusing krypton-86 and lead-208 nuclei to form ununoctium-293 (element 118), which decayed into livermorium-289. However, they retracted the discovery after no one (including themselves) was able to replicate the result. In fact, in 2002, the lab announced the discovery had been based on fabricated data attributed to the principal author, Victor Ninov.Element 116 was called eka-polonium, using Mendeleevs naming convention for unverified elements, or ununhexium (Uuh), using the IUPAC naming convention. Once a new elements synthes is is verified, the discoverers get the right to give it a name. The Dubna group wanted to name element 116 moscovium, after the Moscow Oblast, where Dubna is situated. The Lawrence Livermore team wanted the name livermorium (Lv), which recognizes Lawrence Livermore National Laboratory and Livermore, California, where it is located. The city is named, in turn, for American rancher Robert Livermore, so he indirectly got an element named after him. The IUPAC approved the name livermorium on May 23, 2012. Should researchers ever synthesize enough of element 116 to observe it, its likely livermorium would be a solid metal at room temperature. Based on its position on the periodic table, the element should display chemical properties similar to those of its homologous element, polonium. Some of these chemical properties are also shared by oxygen, sulfur, selenium, and tellurium. Based on its physical and atomic data, livermorium is expected to favor the 2 oxidation state, although some activity of the 4 oxidation state may occur. The 6 oxidation state is not expected to occur at all. Livermorium is expected to have a higher melting point than polonium, yet a lower boiling point. Livermorium is expected to have a higher density than polonium.Livermorium is near an island of nuclear stability, centered on copernicium (element 112) and flerovium (element 114). Elements within the island of stability decay almost exclusively via alpha decay. Livermorium lacks the neutrons to truly be on the island, yet its heavier isotopes decay more slowly than its lighter ones. The molecule livermorane (LvH2) would be the heaviest homolog of water. Livermorium Atomic Data Element Name/Symbol: Livermorium (Lv) Atomic Number: 116 Atomic Weight: [293] Discovery:  Joint Institute for Nuclear Research and Lawrence Livermore National Laboratory (2000) Electron Configuration:  [Rn] 5f14  6d10  7s2  7p4   or perhaps [Rn] 5f14  6d10  7s2 7p21/2  7p2  3/2, to reflect the 7p subshell split Element Group: p-block, group 16 (chalcogens) Element Period: period 7 Density: 12.9 g/cm3 (predicted) Oxidation States: probably -2, 2, 4 with the 2 oxidation state predicted to be most stable Ionization Energies: Ionization energies are predicted values: 1st:  723.6  kJ/mol2nd:  1331.5  kJ/mol3rd:  2846.3  kJ/mol Atomic Radius: 183 pm Covalent Radius: 162-166 pm (extrapolated) Isotopes: 4 isotopes are known, with mass number 290-293. Livermorium-293 has the longest half-life, which is approximately 60 milliseconds.   Melting Point:  637–780  K  Ã¢â‚¬â€¹(364–507  Ã‚ °C, ​687–944  Ã‚ °F) predicted Boiling Point:1035–1135  K ​(762–862  Ã‚ °C, ​1403–1583  Ã‚ °F) predicted Uses of Livermorium: At present, the only uses of livermorium are for scientific research. Livermorium Sources: Superheavy elements, such as element 116, are the result of nuclear fusion. If scientists succeed in forming even heavier elements, livermorium might be seen as a decay product. Toxicity: Livermorium presents a health hazard because of its extreme radioactivity. The element serves no known biological function in any organism. References Fricke, Burkhard (1975). Superheavy elements: a prediction of their chemical and physical properties. Recent Impact of Physics on Inorganic Chemistry. 21: 89–144.Hoffman, Darleane C.; Lee, Diana M.; Pershina, Valeria (2006). Transactinides and the future elements. In Morss; Edelstein, Norman M.; Fuger, Jean. The Chemistry of the Actinide and Transactinide Elements (3rd ed.). Dordrecht, The Netherlands: Springer ScienceBusiness Media.Oganessian, Yu. Ts.; Utyonkov; Lobanov; Abdullin; Polyakov; Shirokovsky; Tsyganov; Gulbekian; Bogomolov; Gikal; Mezentsev; Iliev; Subbotin; Sukhov; Ivanov; Buklanov; Subotic; Itkis; Moody; Wild; Stoyer; Stoyer; Lougheed; Laue; Karelin; Tatarinov (2000). Observation of the decay of  292116.  Physical Review C.  63:Oganessian, Yu. Ts.; Utyonkov, V.; Lobanov, Yu.; Abdullin, F.; Polyakov, A.; Shirokovsky, I.; Tsyganov, Yu.; Gulbekian, G.; Bogomolov, S.; Gikal, B. N.; et al. (2004). Measurements of cross sections and decay properties of the isotop es of elements 112, 114, and 116 produced in the fusion reactions  233,238U,  242Pu, and  248Cm48Ca.  Physical Review C.  70  (6).