Researchers confirm the existence of this synthetic element in a new accelerator study. Will it be enough to give ununpentium official recognition and a new name?At the bottom right corner of the periodic table of elements, there are a handful of boxes that illustrators often color gray. The International Union of Pure and Applied Chemistry leaves out those boxes altogether, so that their periodic table looks a bit gap-toothed. The boxes are for elements that the IUPAC hasn’t yet confirmed actually exist.
Now, a new set of experiments backs up the discovery of one of those elements. An international team of physicists has synthesized an element with 115 protons in the GSI accelerator in Germany. This isn’t the first time a research group has synthesized the element, which has the temporary name of ununpentium (Latin for one-one-five, plus “-ium.”) A team of Russian and U.S. scientists first made ununpentium in the early 2000s and published a paper about it in 2006. However, at the time, the IUPAC didn’t consider that enough evidence to officially recognize-or name-ununpentium. The new GSI studies are another step toward official recognition.
Why do we say that people “synthesized” or “made” ununpentium, instead of saying people “found” it? Well, like other super-heavy elements, ununpentium can only exist when people perform experiments to create it. It’s an entirely synthetic element (ununpentium : elements :: polyester : fabrics?). You can’t just cook it up in any lab, either. The creation of elements heavier than uranium, which is the heaviest element to occur naturally on Earth and contains 92 protons, requires fusion reactions, nuclear reactions, or other highly specialized chemistry. Before ununpentium, the GSI accelerator had created six synthetic elements with more protons than uranium.
To make ununpentium, the team of physicists working at GSI bombarded a thin film of americium-another synthetic element, with 95 protons-with calcium ions, which have 20 protons each. The bombardment fuses the nuclei of the americium atoms with the nuclei of the calcium atoms to make a new, single, 115-proton nucleus. (See the very educational GIF on GSI’s “new elements” webpage.) Like all super-heavy, synthetic elements, ununpentium decays quickly. Atoms of ununpentium that researchers made for the 2006 announcement lasted just 30 to 80 milliseconds.
According to Lund University in Sweden, IUPAC members will now review the new confirmation of the 2006 work and decide whether it’s enough to merit official recognition for ununpentium. Lund researchers led the recent ununpentium experiments done at GSI. Meanwhile, the Lund team has published its findings in the journalPhysical Review Letters.
Besides confirming cool theories in chemistry, work on synthetic elements helps researchers learn more about the process of fission in general, according to the U.S.” Lawrence Livermore National Laboratory. You’re unlikely to see ununpentium in even the most advanced gizmos of the future, however. So far, scientists have found practical applications only for synthetic elements with 100 or so protons or fewer. …
This is particularly interesting to UFO buffs since 115 is the element that was said to have anti-gravity properties.
Element 115, the key to understanding how the ultra-secret “Black World” has created aircraft capable of manipulating gravity and space/time, has been identified … The reactor found in the alien craft at S4, as widely mentioned by physicist Robert Lazar is primarily based on a superheavy element with an atomic number of 115. Element 115 will be designated as “Ununpentium” according to IUPAC guidelines.
Bob Lazar stated that the “Sport Model” Flying Disc amplified the “Strong Nuclear Force” of Element 115 (UnUnPentium or UUP) to generate the gravity field for “Space-Time Compression.” Bob also stated that the U.S. Government had 500 pounds of Element 115 in their possession. The raw Element 115 was given to the U.S. Goverment at S4 by the Reticulan EBEs in the form of discs. …
Bob Lazar stated that the … fuel and gravity source in the “Sport Model” Flying Disc was stable. On February 2, 2004, scientists at the Lawrence Livermore National Laboratory, in collaboration with researchers from the Joint Institute for Nuclear Research in Russia (JINR), announced that they discovered two new super-heavy elements, Element 113 and Element 115. The Isotope of Element 115, produced by bombarding an Americium-243 (95Am243) nucleus with a Calcium-48 (20Ca48) nucleus, rapidly decayed to Element 113. then continued to decay until a meta-stable isotope was obtained. …
The following reactions are the actual reactions that took place in the laboratory by bombarding Americium-243 with Calcium-48, which resulted in the two Isotopes of Element 115, indicated below, being identified.
95Am243 + 20Ca48 → 115UUP288 + 30n1 115UUP288 → 113UUT284 + 2He4 → …
95Am243 + 20Ca48 → 115UUP287 + 40n1 115UUP287 → 113UUT283 + 2He4 → …
The maximum theoretical atomic mass isotope of Element 115 that could be produced in the reaction, above, 115UUP291, would only have 176 neutrons in its nucleus. This isotope of Element 115 is shy 8 neutrons from containing the magic number of 184 neutrons. The two actual isotopes of Element 115 produced by this reaction, 115UUP288 and 115UUP287 contain 173 neutrons, shy 11 neutrons from the magic number of 184, and 172 neutrons, shy 12 neutrons from the magic number of 184, respectively.
This latest scientific breakthrough, however, provides significant credibility to Bob Lazar’s claims rather than discrediting his claims. Bob Lazar’s Element 115 discs used to make the wedge for the “Sport Model” Flying Disc Anti-Matter Reactor would have to have been the isotope of Element 115 containing the magic number of 184 neutrons, therefore, having an atomic mass of 299. The nuclear configuration of this isotope of Element 115 would be identical to the nuclear configuration of the only known stable isotope of Element 83, Bismuth, 83Bi209, containing the magic number of 126 neutrons, except that the Element 115 isotope would have one more energy level completely filled with protons and neutrons. 82 protons and 114 protons are magic numbers for protons because 82 protons completely fill 6 proton energy levels and 114 protons completely fill 7 proton energy levels. The 83rd proton for Bismuth is a lone proton in the 7th proton energy level and the 115th proton for Element 115 is the lone proton in the 8th proton energy level. 126 neutrons completely fill 7 neutron energy levels and 184 neutrons completely fill 8 neutron energy levels. Refer to the Nucleon Energy Level Table for Bismuth and Element 115, below, for the nuclear configurations of Bismuth and Element 115. This stable isotope of Bismuth, Element 83, has very unique gravitational characteristics. Refer to the Henry William Wallace Patent: U.S. Patent 3,626,605, “Method and Apparatus for Generating a Secondary Gravitational Force Field.”
How do you weigh 500 lbs of a material with anti-gravity properties?