Wednesday, March 18, 2020

Private Ownership of Guns essays

Private Ownership of Guns essays Topics for conversation in this report will include: Gun control assumes some fundamental things to hold true. It assumes that all people are law abiding, responsible, and well intended; we know this is not the case or their would not be a gun debate. Since the above does not hold true we have markets that will work against gun control, called Black Markets. Gun control works for the normal market, where there is a series of checks and balances to keep guns out of the hands of known criminals and people with mental disorders through background checks and waiting periods. What happens with the people that are not allowed to buy a gun because of their background? They say OK and are kept from buying guns. WRONG this is where some, not all, turn to the Black Market. The Black Market has only one check and balance, risk vs. reward. How much can be charged for a gun vs. the legal problems that can be caused for the seller and buyer. If the risk is worth the reward we have a Black Market where people can buy and sell guns without the controls of the normal market, but are under pressure of legal action if caught. The stronger the laws are restricting gun ownership in our Normal Market the more demand for Black Market guns will grow. This market shift was seen during the probation of alcohol and the resulting Black Markets for production and distribution of the contraband. We should remember the social unrest that accompanied that Black Market occurrence. The argument Polsby makes is the higher the number of victims a criminal assumes to be armed, the higher will be the risk-the price-of assaulting them. This is what I call victims vs. criminal evaluation. This creates yet another market, the one of victims. I see ...

Monday, March 2, 2020

Ytterbium Facts - Yb Element Facts

Ytterbium Facts - Yb Element Facts Ytterbium is element number 70 with an element symbol Yb. This silver-colored rare earth element is one of several elements discovered from ores from a quarry in Ytterby, Sweden. Here are interesting facts about element Yb, as well as a summary of key atomic data: Interesting Ytterbium Element Facts Like other rare earth elements, ytterbium isnt really all that rare, but it did take scientists a long time to figure out how to separate the rare earth elements from one another. During this time, it was rare to encounter them. Today, rare earths are common in everyday products, particularly in monitors and electronics.Ytterbium was one of the elements isolated from the mineral yttria. These elements derive their names from Ytterby (e.g., Yttrium, Ytterbium, Terbium, Erbium). For about 30 years, it was difficult to distinguish the elements from each other, so there was confusion about which element belonged to which name. Ytterbium went by at least four names, including ytterbium, ytterbia, erbia, and neoytterbia, when it wasnt altogether confused with another element.Credit for discovering ytterbium is shared between Jean-Charles Gallisard de Marignac, Lars Fredrik Nilson, and Georges Urbain, who identified the element over a period of several years, starting in 1787. Marignac repo rted the elemental analysis of a sample called erbia in 1878 (isolated from yttria), saying it consisted of two elements he called erbium and ytterbium. In 1879, Nilson announced Marignacs ytterbium was not a single element, but a mixture of two elements he called scandium and ytterbium. In 1907, Urbain announced Nilsons ytterbium was, in turn, a mixture of two elements, which he called ytterbium and lutetium. Relatively pure ytterbium was not isolated until 1937. A high purity specimen of the element wasnt made until 1953. Uses of ytterbium include use as a radiation source for x-ray machines. It is added to stainless steel to improve its mechanical properties. It may be added as a doping agent to fiber optic cable. It is used to make certain lasers.Ytterbium and its compounds are not normally found in the human body. They are estimated to be of low to moderate toxicity. However, ytterbium is stored and treated as if it were a highly toxic chemical. Part of the reason is that metallic ytterbium dust presents a fire hazard, evolving toxic fumes as it burns. A ytterbium fire can only be extinguished using a class D dry chemical fire extinguisher. Another risk from ytterbium is that it causes skin and eye irritation. Scientists believe some ytterbium compounds are teratogenic.Ytterbium is a bright, shiny silver metal that is ductile and malleable. The most common oxidation state of ytterbium is 3, but the 2 oxidation state also occurs (which is unusual for a lanthanide). It is more reactive than the other lanthanide elements, so it is generally stored in sealed containers to keep it from reacting with oxygen and water in air. The finely powdered metal will ignite in air. Ytterbium is the 44th most abundant element in the Earths crust. It is one of the more common rare earths, present at about 2.7 to 8 parts per million in the crust. It is common in the mineral monazite.7 natural isotopes of ytterbium occur, plus at least 27 radioactive isotopes have been observed. The most common isotope is ytterbium-174, which accounts for about 31.8 percent of the natural abundance of the element. The most stable radioisotope is ytterbium-169, which has a half-life of 32.0 days. Ytterbium also displays 12 meta states, with the most stable being ytterbium-169m, with a half life of 46 seconds. Ytterbium Element Atomic Data Element Name: Ytterbium Atomic Number: 70 Symbol: Yb Atomic Weight: 173.04 Discovery: Jean de Marignac 1878 (Switzerland) Electron Configuration: [Xe] 4f14 6s2 Element Classification: Rare Earth (Lanthanide Series) Word Origin: Named for the Swedish village of Ytterby. Density (g/cc): 6.9654 Melting Point (K): 1097 Boiling Point (K): 1466 Appearance: silvery, lustrous, malleable, and ductile metal Atomic Radius (pm): 194 Atomic Volume (cc/mol): 24.8 Ionic Radius: 85.8 (3e) 93 (2e) Specific Heat (20Â °C J/g mol): 0.145 Fusion Heat (kJ/mol): 3.35 Evaporation Heat (kJ/mol): 159 Pauling Negativity Number: 1.1 First Ionizing Energy (kJ/mol): 603 Oxidation States: 3, 2 Lattice Structure: Face-Centered Cubic Lattice Constant (Ã…): 5.490 References: Los Alamos National Laboratory (2001), Crescent Chemical Company (2001), Langes Handbook of Chemistry (1952), CRC Handbook of Chemistry Physics (18th Ed.) Return to the Periodic Table