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The chemical agents of the specialty have an enormous variety of applications; in fact, it& #039; more exact s to say that in the majority of the cases, it& #039; s possible to produce a chemical agent of the specialty that adapts to which could be the needs of a particular process. Which are chemical agents of the specialty? The majority of chemical agents is categorisen in one of two groups: chemical agents of the matter, and chemical agents of the specialty. The chemical agents of the matter are those that take place in extensive amounts, and are quite basic and cheap to produce. These tend to be produced in a plant that hardly produces enormous amounts of one or two diverse chemical agents. The chemical agents of the specialty are something different, in that the majority of the chemical manufacturers of the specialty tends to produce much more small amounts of their products. These chemical agents of the specialty tend to be more expensive than their counterparts of the matter (in the part due to the effects of economies on scale), and are less frequently used for more specific intentions and refinings. The chemical agents of the specialty include inert fats, used oils, and waxes, chemical agents in laboratories, chemical agents of the water treatment, nutritional epoxides and resins, additives, pharmaceutical products, and photographic chemical agents. How they are designed and take place the chemical agents of the specialty? A useful aspect of chemical agents of the specialty is that requisite individuals can be created to solve the specifications of a product or a particular process. The thing important to understand is that each chemical agent is compound of the molecules that alternatively are made up of diverse combinations of atomic elements. Each element has its own special system of chemical and physical characteristics, and following the combination of elements they are used that, the chemical substance will have certain chemical characteristics and physical his the own ones. These chemical characteristics are, total, employee in an important enormous factor: the number of electrons of which a single atom of a single element is made up. Amazing, for example, the unique basic difference between elementary oxygen and the elementary coal is enough that an atom of oxygen has eight electrons, whereas an atom of the coal has seises. This basic difference means that each element has entirely diverse physical and chemical characteristics. This could seem like a somewhat interminable explanation, but it& #039; s important to understand how a chemistry can design several types of chemical agents of the specialty, because the ways of which several diverse elements also react are determined to a large extent by the number of electrons an atom of each element contains. Another important concept is that an atom of any element has a series of atomic electron shells, calls the rinds, and with the exception of the intimate rind, each can support to eight electrons. An atom that doesn& #039; t has a filled external rind will form chemical bonds with other atoms, if it can, to fill that external rind. An atom of the elementary fluorine, for example, has a total of nine electrons, and has an external rind that is & #039; missing& #039; an electron. It& #039; s this atomic structure that makes fluorine a highly reactive element when it& #039; present of s in its pure form. You could say to that fluorine & #039; wants& #039; in order to react so seriously with other chemical agents that he will react with almost any thing in his efforts to fill that external rind. This makes fluorine-and other important gases-absolute of the halogen in the production of certain chemical agents of the specialty. These halogen forms the compounds that are highly stable, due to their special atomic structure. This made to seem like an incredibly complicated business to & #039; outsider& #039; who isn& #039; relative of t with chemical processes. To the chemicals that design and produce chemical agents of the specialty, it& #039; nature of s second. The chemicals have the understanding of the knowledge of the bottom of all the characteristics different from each element-that allows that they design the chemical agents of the specialty that have the wished characteristics. With the knowledge of diverse chemistry and the physical characteristics of elements and molecules, the chemicals of the specialty can design and produce the chemical agents that is inert and non-reactivates in the high temperatures, the chemical agents that reject the water or dirt, that is used like lubricants, or like pharmaceutical drugs. The key is that the designer understands how to combine elements and the chemical agents to raise with an end item with the chemical agent and the physical characteristics that are necessary. The uses uses of ChemicalsThe of the specialty of the several of chemical agents of the specialty are still more diverse that the chemical agents they themselves. The chemical agents of the specialty are used in an extensive arsenal of industrial processes, and they take place like end items. The uses superiors include pharmaceutical products (in fact, more than half of present pharmaceutical products they can be classified like chemical agents of the specialty, are fluorados during the manufacture process, to improve the bioactividad and the stability of the end item), the photographic fertilizers and pesticides, dyes, tensioactivadores, plastics, elastomers, and chemical agents. The inert lubricants widely are used in industries of the automobile (aviation including and infant of navy) and in many industrial processes. The chemical agents are they themselves of the specialty very of frequent use in the production of other chemical agents and end items.