Cadmium, symbol, Cd, is a silvery white metallic chemical element with a faint blue tinge to it. It is the fifty-seventh most commonly found element in the earth. It was discovered by
F. Stromeyer, in 1817, in Germany. Stromeyer was studying a sample of zinc carbonate which separated into a the new element ultimately called cadmium. The only cadmium materials, greenockite (cadmium sulfide) and otavile
(cadmium carbonate) are found in zinc oxide and zinc carbonate. Cadmium, which is usually associated with zinc has some differences; some of which are that cadmium is softer and has a lower melting and boiling point than zinc. There are five basic states of cadmium. First, there is the regular raw metal cadmium. Then there is cadmium oxide which is formed by burning the raw metal in the air producing brown smoke. Cadmium oxide can also be formed by heating cadmium carbonate in acid or ammonia producing a brown powder. By doing this, cadmium and oxygen are being mixed.
Cadmium carbonate is made by absorbing carbon dioxide into the raw metal or mixing cadmium salts with ammonium carbonate, forming a salt-like substance. Cadmium sulfide is made by mixing hydrogen sulfide with a solution of cadmium ions, resulting in a range of colors from lemon yellow to a deep red. Cadmium halides are compounds with complex cadmium ions in them to form varied structure solutions. The regular structure of a cadmium atom is that it has four electron shells with a total of 48 electrons in it. The main use for cadmium is to plate iron, steel and other metals, protecting them from corrosion. This method has been used since 1919. The use of cadmium has to be limited because it gives off large numbers of toxins into the environment. The use of cadmium has gradually decreased in order to help the environment. It is not used to plate food processing parts or ovens because of this.
Cadmium may be found in some cereals, nuts and vegetables, but scientists doubt that, if taken is small quantities, it would prove harmful. Cadmium is also used for nickel-cadmium batteries and nuclear control rods. It is used in compounds, for example, with copper to harden them. Since the color of cadmium sulfide varies it is useful for
Although some of the elements have been known for thousands of years, our understanding of many elements is still young. Mendeleev’s first Periodic Table contained only 63 elements, and about that many were discovered in the following 100 years. Just like countries, emperors, philosophers, and cities, elements have histories, too.“The Disappearing spoon” by Sam Kean, is a detailed history of the elements on the Periodic Table. Kean does a important job of telling every single element’s journey throughout the history of mankind: from the earliest times, when chemistry was intermingled with alchemy, to these days of modern chemistry. For example: Thallium is considered the deadliest element, pretending to be potassium to gain entry into our cells where it then breaks amino acid bonds within proteins. The CIA once developed a plan to poison Fidel Castro by dosing his socks with thallium-tainted
In World War II the soldiers used a jelly-like substance, called “red vet pet” to prevent themselves from the sun. Finally, Benjamin Green combined this substance with cocoa butter and coconut oil, which created the new line of Coppertone suntan cream. Coppertone has come a long way, to make their product better. As they changed the product, the advertisement changed over the years to appeal to the audience. Although both of these advertisements are being presented to get people to buy Coppertone, the modern day advertising is more appealing than 1944 advertisement; the modern day advertisement has a better focal point, action, general feeling and mood, selection of elements, and audience.
Calcium is the 20th element of the periodic table. It is a metallic element that is greyish-silver in colour and has the atomic symbol of Ca. It is a group 2 alkaline earth metal and is the 5th most abundant element by mass in earth’s crust. It is also reactive with water and is relatively soft. It is an essential element for organisms, and is major material that is used in the materialisation of teeth, bone and shells. It is also the most abundant metal located within animals.
An atom, by definition, is the smallest part of any substance. The atom has three main components that make it up: protons, neutrons, and electrons. The protons and neutrons are within the nucleus in the center of the atom. The electrons revolve around the nucleus in many orbitals. These orbitals consist of many different shapes, including circular, spiral, and many others. Protons are positively charged and electrons are negatively charged. Protons and electrons both have charge of equal magnitude (i.e. 1.602x10-19 coulombs). Neutrons have a neutral charge, and they, along with protons, are the majority of mass in an atom. Electron mass, though, is negligible. When an atom has a neutral charge, it is stable.
The term “zinc” was not in use until the 16th century, at the earliest. The ancient Greeks called it “pseudargyras,” meaning “false silver,” and made very little use of it (Mathewson 1). The unassuming bluish-gray mineral was given a warmer welcome by the Romans, who were already using it to make brass by “about the time of Augustus, 20BC to 14AD”; the Romans used, not purified zinc, but the mineral calamine (“zincky wall accretions” from caves) and fused them in a crucible with bits of copper to make their brass (Mathewson 1). Around the world, zinc was being exploited by the Chinese civilization as well, although documentation of Asian use of zinc does not come until the 7th century of AD, from Kazwiui, the “Pliny of the Orient.” Kazwiui, “who died in 630AD, stated that the Chinese knew how to render the metal malleable and used it to make small coins and mirrors” (Mathewson 2). The discovery and use of zinc, then, was widespread in ancient times and through the Middle Ages. However, it seems that it had not yet been used for anything much more practical than a mirror, a fact that would very quickly change in the 18th and 19th centuries as higher-grade zinc became available and new applications presented themselves.
For over half a century the Pittsburgh region was the largest concentration of steel making in the world. Its collapse was spectacular. The mill towns strung along the Monongahela Valley have now suffered forty years of decline. Much of their shabby infrastructure and buildings (at best homely even in their prime) has decayed, most of their population has fled to the metropolitan suburbs or left the region, and those that remain, for the most part poor, struggle or live off memories. Regeneration is a continuing problem for public policy makers as the mill towns struggle on life-support systems — public welfare for individual households; funding from federal, state and local agencies for public services, projects and a plethora of `initiatives´. Re-born they are not.
Lead is usually used in cell phone screens, circuit boards and the buttons.Lead is commonly used as a stabilizer in products and for pigment in paint, rubber, plastics, and ceramics. Lead's chemical properties also make it easy to use in metal products.
Silver has been used since prehistoric times and it has and still plays an important role today. We do not know which person discovered it, but what we do know is that the Ancients discovered it. Silver has a special place in the history of the elements because it is one of the first five metals used and discovered by humans. The other four elements that were used and discovered by humans were gold, copper, lead, and iron. Silver objects from before
It is made mostly of copper carbonate. It can be crushed into a green powder. If this powder is heated it changes colour. A new substance has been made. The new substance is a black powder.
Mr. Cronstedt discovered nickel in a mineral called niccolite. He originally planned to extract copper from this new mineral but got none at all. This is why nickel, at first, was called "false copper". Instead, Cronstedt got a silvery-white metal, which was eventually used for other things.
Uranium was discovered by Martin Heinrich Klaproth, a German chemist, in the mineral pitchblende (primarily a mix of uranium oxides) in 1789.Klaproth, as well as the rest of the scientific community, believed that the substance he extracted from pitchblende was pure uranium, it was actually uranium dioxide (UO2). After noticing that 'pure' uranium reacted oddly with uranium tetrachloride (UCl4), Radioactivity was first discovered in 1896 when Antoine Henri Becquerel, a French physicist, detected it from a sample of uranium. Today, uranium is obtained from uranium ores such as pitchblende, uraninite , carnotite and autunite as well as from phosphate rock , lignite (brown coal) and monazite sand . Since there is little demand for uranium metal, uranium is usually sold in the form of sodium diuranate , also known as yellow cake, or triuranium octoxide).
It is used in the production of dyes, fertilizers, and chlorides as well as in electroplating and in the photographic, textile and rubber industries.
Roman slaves extracted and prepared the lead, describes a disease among the slaves that was clearly lead poisoning. Because of their potential toxicity, lead water pipes are no longer being installed. The greatest single use of lead metal today is in the plates of storage batteries for automobiles. The protective oxidation layer formed by lead in contact with such substances as air, sulfuric acid, and fluorine makes it highly resistant to corrosion. For this reason, lead has been used to make drainage pipes and lead chambers in sulfuric acid factories.
Aluminum is one of a number of soft metals that scientists call "poor" metals. It can be shaped and twisted into any form. It can be rolled into thick plates for armored tanks or into thin foil for chewing gum wrappers. It may be drawn into a wire or made into cans. Aluminum is a generally popular metal because it does not rust and it resists wear from weather and chemicals. (Bowman, 391) Aluminum is an element. Its atomic number is thirteen and its atomic weight is usually twenty-seven. Pure aluminum melts at 660.2ºC and boils at 2500ºC. Its density is 2.7 grams per cube centimeter. Aluminum is never found uncombined in nature. (Bowman, 391) Aluminum is a very useful metal that is light, easy to shape and can be strong. This makes aluminum one of the most used metals in the world, right behind iron and steel. (Geary, 185) In its pure state, aluminum is quite weak compared to the other metals. However, its strength can be greatly increased by adding small amounts of alloying elements, heat-treating, or cold working. Only a small percentage of aluminum is used in its pure form. It is made into such items as electrical conductors, jewelry, and decorative trim for alliances and cars. A combination of the three techniques has produced aluminum alloys that, pound for pound, are stronger than structural steel. Some common metals used in alloys for aluminum are copper, magnesium and zinc.(Walker, 31) The added elements give the aluminum strength and other properties. (Newmark, 41) Aluminum is one of the lightest metals. It weighs about 168.5 pounds per cubic foot, about a third as much as steel which weighs 487 pounds per cubic foot. (Neely, 214) As a result, aluminum has replaced steel for many uses. For example, some ...