Ununquadium is the temporary name of a radioactive chemical element with the temporary symbol Uuq and atomic number 114. There is no proposed name yet, although Flerovium (after Soviet physicist Georgy Flyorov, the founder of the Joint Institute for Nuclear Researchin Dubna, Russia, where the element was discovered) has been discussed in the media.
About 80 decays of atoms of Ununquadium have been observed to date, 50 directly and 30 from the decay of the heavier elements Ununhexium and ununoctium. All decays have been assigned to the five neighboring isotopes with mass numbers 285-289. The longest-lived isotope currently known is 289Uuq with a half-life of ~2.6 s, although there is evidence for a nuclear isomer, 289b Uuq, with a half-life of ~66 s, that would be one of the longest-lived nuclei in the Super heavy element region.
Chemical studies performed in 2007 strongly indicate that ununquadium possesses non-eka-lead properties and appears to behave as the first superheavy element that portrays noble-gas-like properties due to relativistic effects.
The temporary name of a radioactive chemical element in the Periodic Table that has the temporary symbol Uuq and has the atomic number 114, historically known as eka-lead.
Ununquadium is an artificial chemical element without practical uses.
Ununennium is the temporary name for the element with the atomic number 119.
This element was not prepared up today.
The element with atomic number 119 is a theoretical element and hasn't been observed. However, it does still have an IUPAC systematic placeholder name; which is Ununennium (Uue). Only one attempt has ever been made to make this element. That was in 1985, when Calcium-48 ions were bombarded at Einsteinium-254. It was a failure. If it were to be discovered, it would be the first element of period 8 and would probably fit in under Francium.
It was recognized by the inventor of the Periodic table that these empty spaces are for elements/isotopes that would be discovered someday. Dmitri Mendeleev is generally credited with the publication, in 1869, of the first widely recognized periodic table. He developed his table to illustrate periodic trends in the properties of the then-known elements. Mendeleev also predicted some properties of then-unknown elements that would be expected to fill gaps in this table.
The elements ununtrium, ununquadium, ununpentium, etc. are elements that have been discovered, but so far have not received a trivial name yet. There is a system for naming them temporarily.UN meaning ONE, BI meaning TWO, TRI meaning THREE, QUAD meaning FOUR,PENT meaning FIVE, HEX meaning SIX, SEPT meaning SEVEN, OCT meaning EIGHT,NIN meaning NINE.The Periodic Number is representative of the temporary name given to the element. Therefore: UNUNOCTIUM is the name for element number 118.Direct Temporary naming rule:The temporary names are derived systematically from the element's atomic number. Each digit is translated to a 'numerical root', according to the table to the right. The roots are concatenated, and the name is completed with the ending -ium. Some of the roots are Latin and others are Greek; the reason is to avoid two digits starting with the same letter. There are two elision rules designed to prevent odd-looking names.If bi or tri is followed by the ending ium(i.e. the last digit is 2 or 3), the result is '-bium' or -'trium', not '-biium' or '-triium'.If enn is followed by nil (i.e. the sequence -90- occurs), the result is '-ennil-', not '-ennnil-'.The systematic symbol is formed by taking the first letter of each root, converting the first to a capital.The suffix -ium overrides traditional chemical suffix rules, thus 117 and 118 are ununseptium and ununoctium, not ununseptine and ununocton.All elements up to atomic number 112 have received individual permanent names and symbols, so the systematic names and symbols are only used for elements 113 and above. The systematic names are exactly those with 3-letter symbols.Examples:Element 119:Element 123:Element 208: un + un + enn + ium =un + bi + tr + ium =bi + nil + oct + ium =ununennium (Uue)unbitrium (Ubt)biniloctium (Bno)Note: These examples show conjectured elements. As of 2010, Ununoctium, element 118, is the highest-numbered element discovered.
Ununennium was not discovered yet, as of May 2015; it is the name for element 119.
A group of international scientists are discovering the 119th element. It is called ununennium. Although it is just a prediction, the group has a method to identify it 100% but of course it is not easy. Their method is to fire a beam of titanium atoms(atomic number 22) into some berkelium(97). Add the two together and - eureka! - you get 119th.
This unobtained element will be probably similar to cesium and francium; see also: http://en.wikipedia.org/wiki/Ununennium.
The element with atomic number 119 is a theoretical element and hasn't been observed. However, it does still have an IUPAC systematic placeholder name; which is Ununennium (Uue). Only one attempt has ever been made to make this element. That was in 1985, when Calcium-48 ions were bombarded at Einsteinium-254. It was a failure. If it were to be discovered, it would be the first element of period 8 and would probably fit in under Francium.
The element with atomic number 119 is a theoretical element and hasn't been observed. However, it does still have an IUPAC systematic placeholder name; which is Ununennium (Uue). Only one attempt has ever been made to make this element. That was in 1985, when Calcium-48 ions were bombarded at Einsteinium-254. It was a failure. If it were to be discovered, it would be the first element of period 8 and would probably fit in under Francium.
It was recognized by the inventor of the Periodic table that these empty spaces are for elements/isotopes that would be discovered someday. Dmitri Mendeleev is generally credited with the publication, in 1869, of the first widely recognized periodic table. He developed his table to illustrate periodic trends in the properties of the then-known elements. Mendeleev also predicted some properties of then-unknown elements that would be expected to fill gaps in this table.
Today natural elements are considered the elements up to the atomic number 98; but the elements with atomic numbers 43, 61 and 93-98 exist only in extremely traces, as a curiosity in uranium deposits.
The elements ununtrium, ununquadium, ununpentium, etc. are elements that have been discovered, but so far have not received a trivial name yet. There is a system for naming them temporarily.UN meaning ONE, BI meaning TWO, TRI meaning THREE, QUAD meaning FOUR,PENT meaning FIVE, HEX meaning SIX, SEPT meaning SEVEN, OCT meaning EIGHT,NIN meaning NINE.The Periodic Number is representative of the temporary name given to the element. Therefore: UNUNOCTIUM is the name for element number 118.Direct Temporary naming rule:The temporary names are derived systematically from the element's atomic number. Each digit is translated to a 'numerical root', according to the table to the right. The roots are concatenated, and the name is completed with the ending -ium. Some of the roots are Latin and others are Greek; the reason is to avoid two digits starting with the same letter. There are two elision rules designed to prevent odd-looking names.If bi or tri is followed by the ending ium(i.e. the last digit is 2 or 3), the result is '-bium' or -'trium', not '-biium' or '-triium'.If enn is followed by nil (i.e. the sequence -90- occurs), the result is '-ennil-', not '-ennnil-'.The systematic symbol is formed by taking the first letter of each root, converting the first to a capital.The suffix -ium overrides traditional chemical suffix rules, thus 117 and 118 are ununseptium and ununoctium, not ununseptine and ununocton.All elements up to atomic number 112 have received individual permanent names and symbols, so the systematic names and symbols are only used for elements 113 and above. The systematic names are exactly those with 3-letter symbols.Examples:Element 119:Element 123:Element 208: un + un + enn + ium =un + bi + tr + ium =bi + nil + oct + ium =ununennium (Uue)unbitrium (Ubt)biniloctium (Bno)Note: These examples show conjectured elements. As of 2010, Ununoctium, element 118, is the highest-numbered element discovered.
Before you find what you're looking for in this list, I thought I should just let you know that the only letter you will not find in either the names of the elements or their chemical symbols is 'J'. Otherwise, happy finding :) H - Hydrogen Li - Lithium Na - Sodium K - Potassium Rb - Rubidium Cs - Caesium Fr - Francium Ra - Radium Be - Beryllium Mg - Magnesium Ca - Calcium Sr - Strontium Ba - Barium Ra - Radium Sc - Scantium Y - Yttrium Lu - Lutetium Lr - Lawrencium Ti - Titanium Zr - Zirconium Hf - Hafnium Rf - Rutherfordium V - Vanadium Nb - Nibium Ta - Tantalum Cr - Chromium Mo - Molybdenum W - Tungsten Sg - Seaborgium Mn - Magnese Tc - Technetium Re - Rhenium Bh - Bohrium Fe - Iron Ru - Ruthenium Os - Osmium Hs - Hassium Co - Cobalt Rh - Rhodium Ir - Iridium Mt - Meitnerium Ni - Nickle Pd - Palladium Pt - Platinum Ds - Darmstadtium Cu - Copper Ag - Silver Au - Gold Rg - Roentgenium Zn - Zinc Cd - Cadmium Hg - Mercury Uub - Unumbium B - Boron Al - Aluminium Ga - Gallium In - Indium Tl - Thallium C - Carbon Si - Silicon Ge - Germanium Sn - Tin Pb - Lead N - Nitrogen P - Phosphorus As - Arsenic Sb - Antimony Bi - Bismuth O - Oxygen S - Sulphur Se - Selenium Te - Tellurium Po - Polonim F - Flourine Cl - Chlorine Br - Bromine I - Iodine At - Astatine He - Helium Ne - Neon Ar - Argon Kr - Krypton Xe - Xenon Rn - Radon La - Lanthanum Ac - Actinium Ce - Cerium Th - Thorium Pr - Praseodymium Pa - Proactinium Nd - Neodymium U - Uranium Pm - Promethium Np - Neptunium Sm - Samarium Pu - Plutonium Eu - Europium Am - Americium Gd - Gadolinium Cm - Curium Tb - Terbium Bk - Berkelium Dy - Dysprosium Cf - Californium Ho - Holmium Es - Einsteinium Er - Erbium Fm - Fermium Tm - Thulium Md - Mendelevium Yb - Ytterbium No - Nobelium Uuu - Unununium Uun - Ununnilium Uut - Ununtrium Uuq - Ununquadium Uup - Ununpentium Uuh - Ununhexium Uus - Ununseptium Uuo - Ununoctium Uue - Ununennium Unb - Unbinilium