10 Argon Facts - Ar or Atomic Number 18

10 Argon Facts - Ar or Atomic Number 18 Argon is atomic number 18 on the periodic table, with the element symbol Ar. Here is a collection of useful and interesting argon element facts. 10 Argon Facts Argon is a colorless, flavorless, odorless noble gas. Unlike some other gases, it remains colorless even in liquid and solid form. It is nonflammable and nontoxic. However, since argon is 38% more dense than air, it present an asphyxiation risk because it can displace oxygenated air in enclosed spaces.The element symbol for argon used to be A. In 1957, the International Union of Pure and Applied Chemistry (IUPAC) changed argons symbol to Ar and mendeleviums symbol from Mv to Md.Argon was the first discovered noble gas. Henry Cavendish had suspected the elements existence in 1785 from his examination of samples of air.  Independent research by H.F. Newall and W.N. Hartley in 1882 revealed a spectral line that could not be assigned to any known element.  The element was isolated and officially discovered in air by Lord Rayleigh and William Ramsay in 1894. Rayleigh and Ramsay removed the nitrogen, oxygen, water, and carbon dioxide and examined the remaining gas. Although other eleme nts were present in the residue of air, they accounted for very little of the total mass of the sample. The element name argon comes from the Greek word argos, which means inactive. This refers to the elements resistance to forming chemical bonds.Argon is considered to be chemically inert at room temperature and pressure.Most of the argon on Earth comes from the radioactive decay of potassium-40 into argon-40. Over 99% of the argon on earth consists of the isotope Ar-40.The most abundant isotope of argon in the universe is argon-36, which is made when stars with a mass about 11 times greater than the Sun are in their silicon-burning phase. In this phase, an alpha particle (helium nucleus) is added to a silicon-32 nucleus to make sulfur-34, which adds an alpha particle to become argon-36. Some of the argon-36 adds an alpha particle to become calcium-40. In the universe, argon is quite rare.Argon is the most abundant noble gas. It accounts for about 0.94% of the Earths atmosphere and about 1.6% of the Martian atmosphere. The thin atmosphere of the planet Mercury is about 70% argon.  No t counting water vapor, argon is the third most abundant gas in the Earths atmosphere, after nitrogen and oxygen. It is produced from fractional distillation of liquid air. In all cases, the most abundant isotope of argon on the planets is Ar-40. Argon has many uses. Its found in laser, plasma balls, light bulbs, rocket propellant, and glow tubes. Its used as a protective gas for welding, storing sensitive chemicals, and protecting materials. Sometimes pressurized argon is used as a propellant in aerosol cans. Argon-39 radioisotope dating is used to date the age of ground water and ice core samples. Liquid argon is used in cryosurgery, to destroy cancerous tissue. Argon plasma beams and laser beams are also used in medicine. Argon may be used to make a breathing mix called Argox to help remove dissolved nitrogen from the blood during decompression, as from deep-sea diving. Liquid argon is used in scientific experiments, including neutrino experiments and dark matter searches. Although argon is an abundant element, it has no known biological functions.Argon emits a blue-violet glow when it is excited. Argon lasers exhibit a characteristic blue-green glow.Because noble gas atoms have a complete valence electron shell, they are not very reactive. Argon does not readily form compounds. No stable compounds are known at room temperature and pressure, although argon fluorohydride (HArF) has been observed at temperatures below 17K. Argon forms clathrates with water. Ions, such as ArH, and complexes in the excited state, such as ArF, have been seen. Scientists predict stable argon compounds should exist, although they have not yet been synthesized. Argon Atomic Data Name Argon Symbol Ar Atomic Number 18 Atomic Mass 39.948 Melting Point 83.81 K (189.34 C, 308.81 F) Boiling Point 87.302 K (185.848 C, 302.526 F) Density 1.784 grams per cubic centimeter Phase gas Element Group noble gas, group 18 Element Period 3 Oxidation Number 0 Approximate Cost 50 cents for 100 grams Electron Configuration 1s22s22p63s23p6 Crystal Structure face-entered cubic (fcc) Phase at STP gas Oxidation State 0 Electronegativity no value on the Pauling scale Bonus Argon Joke Why dont I tell chemistry jokes? All the good ones argon!

young offenders essays

young offenders essays In recent years, in Canada, we have seen a gradual reduction in the crime-rate. However, every day on the radio and on TV, we see and hear of another armed robbery, another sexual assault, another drug bust, or another brutal murder. This is scary because it affects us all. We are all potential victims; we are all susceptible to these horrible crimes. Even scarier is that more and more of these crimes, the violent ones, involve young offenders. We are hearing more and more about young offenders, youth between the ages of twelve and eighteen, who are stabbing people on school grounds, sexually assaulting others, and murdering their peers. Recently, we heard the story of a young boy, only six years old, who murdered a fellow classmate in a Michigan elementary school. A few years ago, we heard of the two young boys in England who murdered a boy who was under the age of three years. The dealing of narcotics on the school ground, be it elementary or high school, is increasing. Gradually, it seems that people from every age group are becoming victims, and people from every age group are becoming offenders. Because of space limitations, this paper will deal only with a few young offenders issues. In addition, only a few aspects of the Young Offenders Act will be dealt with. The Young Offenders Act is the federal law for young people charged with crimes. Prior to April 2, 1984, the Young Offenders Act did not exist in Canada. Instead, the Juvenile Delinquents Act (which had been used since 1908) was used to deal with young offenders. The main philosophy of this latter Act was to deal with the welfare of the child. In April 1984, the Young Offenders Act was enacted and one of the major changes that took place was in the philosophy used to deal with young offenders. The Young Offenders Act recognizes that in some situations, a young offender may be deemed (by the trial judge) to be beyond rehabilitation, and a le...