Alkali Metals Essay Research Paper The six

Alkali Metals Essay, Research Paper The six chemical elements that are known as alkali metals are lithium (Li), sodium (Na), potassium (K), rubidium (Rb), cesium (Cs), and the extremely rare radioactive substance called francium (Fr). Cesium and Francium are the most reactive elements in this group. The word alkali comes from the Arabic word al-qili, meaning plant ashes. Plant ashes were the first source of alkali metal compounds. The alkali metals occupy the first column of the periodic table of the elements. Since these metals are all in the same group on the periodic table of the elements they all have similar qualities. They all have a nS1 electron configuration. They do not occur freely in nature. They are softer than other metals, and have lower melting points and densities. They are all silver-white in color, they are all malleable, ductile, and very good at conducting heat and electricity. All of the alkali metals have one electron in their outer most energy level so they all bond easily. All of the alkali metals also react violently with water. In the laboratory pure alkali metals are generally stored in oil to prevent them from forming compounds with other elements. The oil also prevents water vapor in the air from reaching the metals. Compounds of alkali metals rank among the most common and most useful of all chemicals. Millions of tons of alkali metal salts are used by industry each year. The salts come from mines and wells. Sodium and potassium salts are raw materials for sodium hydroxide and potassium hydroxide. These alkali metal compounds and others made from them are used in making glass, paper, soap, and textiles; in refining petroleum; and in preparing leather. Lithium is the lightest of the solid elements, this soft, white metal is found in minerals such as petalite and spodumene. The word Lithium comes from the Greek word ?lithos? meaning ?stone?. Large deposits are found in North Carolina, Nevada, and California. It imparts a crimson color to flame and floats on water. Chemically active, its compounds have many uses, including lithium carbonate in treating manic-depressive psychosis. Other compounds are used as thickeners in lubricating greases, as brines for refrigerating and air-conditioning systems, and in dry cells and storage batteries. It was discovered in 1817 by Johan August Arfwedson. Lithium is a low density solid only about half as dense as water. A freshly cut lithium chunk is silvery but it tarnishes in a minute or so in air to give a gray surface. Life could not exist without compounds of sodium. These compounds hold water in body tissues, and a severe deficiency of sodium can cause death. Blood contains sodium compounds in solution. Sodium compounds are used in industry in the manufacture of chemicals and pharmaceuticals, in metallurgy, in sodium vapor lamps, and in the production of hundreds of everyday products. One of the most common sodium compounds is table salt, or sodium chloride (NaCl). In its pure form sodium is a silver-white, soft and waxy metallic element. Another important compound is sodium bicarbonate, or baking soda. It is the sixth most abundant element on Earth and occurs in more than trace amounts in the stars and sun. Pure sodium is used in the manufacture of tetraethyl lead and as a cooling agent in nuclear reactors. Sodium hydroxide is used in the manufacture of soap, rayon, and paper; in oil refining; and in the textile and rubber industries. Potassium is the seventh most abundant element in the Earth’s crust, potassium occurs in many silicate rocks and minerals. The major commercial source is salt deposits, but a small fraction is obtained from plant and animal sources. Water-soluble potassium compounds are economically recovered. They are frequently found as dry mineral deposits and as brines. Most potassium is present in insoluble minerals, making it difficult to obtain, but it can be prepared commercially by electrolysis from some refinable minerals. Potassium compounds are used in fertilizers, soaps, explosives, glass, baking powder, tanning, and water purification. It exists as three natural isotopes, with atomic mass numbers 39, 40, and 41. Potassium-40 is radioactive. The most abundant isotope is potassium-39. Rubidium is the second most reactive metal, this element is very soft and silvery-white and was named for the two red lines of its spectrum. Found in the minerals lepidolite, pollucite, and others, it is used in photoelectric cells and as a “getter” in electron tubes to scavenge for traces of unwanted gases. It is a widely distributed element that occurs in small amounts in many minerals and in certain mineral waters. It is also found in small quantities in tea, coffee, tobacco, and other plants. It was discovered in 1861 by Robert Bunsen and Gustav Kirchhoff. Cesium is a silvery-white alkali metal used in television cameras, atomic clocks, and as a “getter” in electron tubes to clear out traces of unwanted oxygen in the sealed tube. One of only three metals that are liquid at room temperature, cesium occurs in the minerals pollucite and lepidolite in the Earth’s crust. It was the first element to be discovered spectroscopically. Because it emits electrons when exposed to light, cesium is used in photoelectric cells. The radioactive isotope cesium-137, which is produced by nuclear fission, emits more energy than radium and is used in medical and industrial research as an isotopic tracer. Commercial cesium usually contains rubidium, with which it usually occurs in minerals and which resembles it so closely that no effort is made to separate them. Robert Bunsen and Gustav Kirchhoff discovered it in 1860 and named it for the unique blue lines of its spectrum. Francium is the heaviest member of alkali metals group in periodic table. Found in uranium minerals, even though there is less than 1 ounce of francium in the Earth’s crust at any one time. It can be made artificially by bombarding thorium with protons. There are 20 known isotopes. Its isotopes range in atomic weight from 204 to 224. Francium is produced when the radioactive element actinium disintegrates. The longest-lived isotope, francium-223, oractinium-K, has a half-life of 22 minutes. It was discovered in 1939 by Marguerite Perey of the Curie Institute.