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organic chemistry- the study of carbon and its compounds

inorganic chemistry-the study of all the properties and characteristics of other elements.

analytical chemistry-the analysis and identification of substance

physical chemistry-the study of laws and principles govering physical and chemical changes

biochemistry-the study of materials found in living organism

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11y ago
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Branches of Chemistry

Chemistry can be divided into branches according to either the substances studied or the types of study conducted. The primary division of the first type is between inorganic-chemistry and organic-chemistry. Divisions of the second type are physical chemistry and analytical chemistry.

The original distinction between organic and inorganic chemistry arose as chemists gradually realized that compounds of biological origin were quite different in their general properties from those of mineral origin; organic chemistry was defined as the study of substances produced by living organisms. However, when it was discovered in the 19th cent. that organic molecules can be produced artificially in the laboratory, this definition had to be abandoned. Organic chemistry is most simply defined as the study of the compounds of carbon. Inorganic chemistry is the study of chemical element and their compounds (with the exception of carbon compounds).

Physical chemistry is concerned with the physical properties of materials, such as their electrical and magnetic behavior and their interaction with electromagnetic fields. Subcategories within physical chemistry are thermochemistry, electrochemistry, and chemical kinetics. Thermochemistry is the investigation of the changes in energy and entropy that occur during chemical reactions and phase transformations. Electrochemistry concerns the effects of electricity on chemical changes and interconversions of electric and chemical energy such as that in a voltaic cell. Chemical kinetics is concerned with the details of chemical reactions and of how equilibrium is reached between the products and reactants.

Analytical chemistry is a collection of techniques that allows exact laboratory determination of the composition of a given sample of material. In qualitative analysis all the atoms and molecules present are identified, with particular attention to trace elements. In quantitative analysis the exact weight of each constituent is obtained as well. Stoichiometry is the branch of chemistry concerned with the weights of the chemicals participating in chemical reactions.

History of Chemistry

The earliest practical knowledge of chemistry was concerned with metallurgy, pottery, and dyes; these crafts were developed with considerable skill, but with no understanding of the principles involved, as early as 3500 B.C. in Egypt and Mesopotamia. The basic ideas of element and compound were first formulated by the Greek philosophers during the period from 500 to 300 B.C. Opinion varied, but it was generally believed that four elements (fire, air, water, and earth) combined to form all things. Aristotle's definition of a simple body as "one into which other bodies can be decomposed and which itself is not capable of being divided" is close to the modern definition of element.

About the beginning of the Christian era in Alexandria, the ancient Egyptian industrial arts and Greek philosophical speculations were fused into a new science.

Evolution of Modern Chemistry

In the hands of the "Oxford Chemists" (Robert Boyle, Robert Hooke, and John Mayow) chemistry began to emerge as distinct from the pseudoscience of alchemy. Boyle (1627-91) is often called the founder of modern chemistry (an honor sometimes also given Antoine Lavoisier, 1743-94). He performed experiments under reduced pressure, using an air pump, and discovered that volume and pressure are inversely related in gases. Hooke gave the first rational explanation of combustion-as combination with air-while Mayow studied animal respiration. Even as the English chemists were moving toward the correct theory of combustion, two Germans, J. J. Becher and G. E. Stahl, introduced the false phlogiston theory of combustion, which held that the substance phlogiston is contained in all combustible bodies and escapes when the bodies burn.

The discovery of various gases and the analysis of air as a mixture of gases occurred during the phlogiston period. Carbon dioxide, first described by J. B. van Helmont and rediscovered by Joseph Black in 1754, was originally called fixed air. Hydrogen, discovered by Boyle and carefully studied by Henry Cavendish, was called inflammable air and was sometimes identified with phlogiston itself. Cavendish also showed that the explosion of hydrogen and oxygen produces water. C. W. Scheele found that air is composed of two fluids, only one of which supports combustion. He was the first to obtain pure oxygen (1771-73), although he did not recognize it as an element. Joseph Priestley independently discovered oxygen by heating the red oxide of mercury with a burning glass; he was the last great defender of the phlogiston theory.

The work of Priestley, Black, and Cavendish was radically reinterpreted by Lavoisier, who did for chemistry what Newton had done for physics a century before. He made no important new discoveries of his own; rather, he was a theoretician. He recognized the true nature of combustion, introduced a new chemical nomenclature, and wrote the first modern chemistry textbook. He erroneously believed that all acids contain oxygen.

Impact of the Atomic Theory

The assumption that compounds were of definite composition was implicit in 18th-century chemistry. J. L. Proust formally stated the law of constant proportions in 1797. C. L. Berthollet opposed this law, holding that composition depended on the method of preparation. The issue was resolved in favor of Proust by John Dalton's atomic theory (1808). The atomic theory goes back to the Greeks, but it did not prove fruitful in chemistry until Dalton ascribed relative weights to the atoms of chemical elements. Electrochemical theories of chemical combinations were developed by Humphry Davy and J. J. Berzelius. Davy discovered the alkali metals by passing an electric current through their molten oxides. Michael Faraday discovered that a definite quantity of charge must flow in order to deposit a given weight of material in solution. Amedeo Avogadro introduced the hypothesis that equal volumes of gases at the same pressure and temperature contain the same number of molecules.

William Prout suggested that as all elements seemed to have atomic weights that were multiples of the atomic weight of hydrogen, they could all be in some way different combinations of hydrogen atoms. This contributed to the concept of the periodic-table of the elements, the culmination of a long effort to find regular, systematic properties among the elements.history-of-the-periodic-tablewere put forward almost simultaneously and independently by J. L. Meyer in Germany and D. I. Mendeleev in Russia (1869). An early triumph of the new theory was the discovery of new elements that fit the empty spaces in the table. William Ramsay's discovery, in collaboration with Lord Rayleigh, of argon and other inert gases in the atmosphere extended the Periodic Table

Organic Chemistry and the Modern Era

Organic chemistry developed extensively in the 19th cent., prompted in part by Friedrich Wohler's synthesis of urea (1828), which disproved the belief that only living organisms could produce organic molecules. Other important organic chemists include Justus von Liebig, C. A. Wurtz, and J. B. Dumas. In 1852 Edward Frankland introduced the idea of valency, and in 1858 F. A. Kekule showed that carbon atoms are tetravalent and are linked together in chains. Kekule's ring structure for benzene opened the way to modern theories of organic chemistry. Henri Louis Le Châtelier, J. H. van't Hoff, and Wilhelm Ostwald pioneered the application of thermodynamics to chemistry. Further contributions were the phase rule of J. W. Gibbs, the ionization equilibrium theory of S. A. Arrhenius, and the heat theorem of Walther Nernst. Ernst Fischer's work on the amino acids marks the beginning of molecular biology.

At the end of the 19th cent., the discovery of the electron by J. J. Thomson and of radioactivity by A. E. Becquerel revealed the close connection between chemistry and physics. The work of Ernest Rutherford, H. G. J. Moseley, and Niels Bohr on atomic structure was applied to molecular structures. G. N. Lewis, Irving Langmuir, and Linus Pauling developed the electronic theory of chemical-bond, directed valency, and molecular orbitals. Transmutation of the elements, first achieved by Rutherford, has led to the creation of elements not found in nature; in work pioneered by Glenn, elements heavier than uranium have been produced. With the rapid development of polymerchemistry after World War II a host of new synthetic fibers and materials have been added to the market. A fuller understanding of the relation between the structure of molecules and their properties has allowed chemists to tailor predicatively new materials to meet specific needs.

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10y ago

Organic Chemistry: This branch of chemistry deals with the study of the organic matter.

Inorganic Chemistry: It is the branch of chemistry that relates to the structure,

Analytical Chemistry: This is a very important branch of chemistry that deals with the analysis of the chemical properties of natural and man-made materials.

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9y ago

technically, there are only five main branches of chemistry. They are, organic chemistry, the study of carbon and its compounds, inorganic chemistry or the study of compounds not included in organic chemistry. There is also analytical chemistry, the study of the development of tools used to measure properties of matter, physical chemistry, the study of the physics behind chemistry. Finally, biochemistry studies the processes that occur in living things.

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8y ago

The five branches are analytical, physical, biochemistry, organic, and inorganic.

Analytical is the study of chemistry in matter.

Organic studies carbon and anything living.

Inorganic studies metals typically.

Biochemistry studies chemical proccesses.

Physical studies the physics aspect within chemistry.

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10y ago

The main branches of chemistry are:

(1)physical chemistry. (2)organic chemistry. (3)inorganic chemistry.

(4)analytical chemistry. (5)biochemistry. (6)industrial and applied chemistry. (7)nuclear chemistry. (8)enviromental chemistry. (9)polymer chemistry.

(1)PHYSICAL CHEMISTRY:

It is the branch of chemistry that deals with the laws and the principles governing the combination of atoms and molecules in chemical reaction.

(2)ORGANIC CHEMISTRY:It is the branch of chemistry that deals with carbon compounds.Actually it is the chemistry of hydrocarbons and their derivatives.

(3)INORGANIC CHEMISTRY:it is the branch of chemistry that deals with the chemistry of element and their compounds,generally obtained from non-living organisms i.e from minerals.

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11y ago

Organic Chemistry: This branch of chemistry deals with the study of the organic matter. The substances that primarily consist of carbon and hydrogen are termed as organic. The discipline that deals with the study of the structure, composition and the chemical properties of organic compounds is known as organic chemistry. This branch also deals with the chemical reactions that are used in the preparation of organic chemical compounds.

Inorganic Chemistry: It is the branch of chemistry that relates to the structure, composition and behavior of inorganic compounds. All the substances other than the carbon-hydrogen compounds are classified under the group of inorganic substances. Oxides, sulfides and carbonates form the important classes of inorganic compounds. Industrial inorganic chemistry deals with the branch of applied science such as the manufacture of fertilizers, while the descriptive inorganic chemistry deals with the classification of compounds based on their properties.

Analytical Chemistry: This is a very important branch of chemistry that deals with the analysis of the chemical properties of natural and man-made materials. The study does not restrict itself to any particular type of chemical compounds. Instrumental analysis is a prominent part of modern analytical chemistry. Analytical chemistry primarily deals with the study of the chemicals present in a substance, in what quantity they are, and how they define the chemical properties of the substance.

Physical Chemistry: This branch of chemistry applies the theories of physics to atoms and subatomic particles. When physical chemistry is applied to the chemical interaction between atoms and subatomic particles, the study is known by the name, quantum mechanics. It is a relatively vast field that deals with intermolecular forces, rates of chemical reactions as well the conductivity of different materials.

Biochemistry:This discipline of chemistry represents a peep of Biology into chemistry. It deals with the structure and behavior of the components of cells and the chemical processes in living beings. The complex and large biomolecules are usually composed of similar units that repeat. The complex molecules are known as polymers and the basic units they are composed of, are known as monomers. Biochemistry deals with the study of cellular constituents like proteins, carbohydrates, lipids, and nucleic acids as also the chemical processes that occur in cells.

Nuclear Chemistry: It is a popular and one of the very important branches of chemistry that studies radioactivity. It revolves around the study of the nuclear properties of and the chemical processes in radioactive substances. This branch also covers the study of the equipment used for the performance of nuclear processes. The effects of the absorption of radiation, the production and use of radioactive materials and radiotherapy come under this branch of chemistry. Nuclear chemistry also deals with the non-radioactive areas of life.

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10y ago

Chemistry is the study of matter, its composition, structure, properties, the changes it undergoes, and laws and principles that govern these changes.

Its branches are organic chemistry, inorganic chemistry, physical chemistry, biochemistry, and analytical chemistry.

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14y ago

give the different branch of science

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14y ago

nuclear physics

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