The dividing line between organic and inorganic is somewhat controversial and historically arbitrary, but generally speaking, organic compounds have carbon-hydrogen bonds, and inorganic compounds do not. Thus carbonic acid is inorganic, whereas formic acid, the first fatty acid, is organic, although it could as well be called "carbonous acid" and its anhydride, carbon monoxide, is inorganic.
The name "organic" is a historical name, dating back to 19th century, when it was believed that organic compounds could only be synthesised in living organisms through vis vitalis - the "force of life".
Most pure organic compounds are artificially produced. Ironically the term "organic" is also used to describe products produced without artificial chemicals. See organic production.
Organic chemists determine the structures of organicmolecules, study their various reactions, and develop procedures for the synthesis of organic compounds.
Organic chemistry has had a profound effect on modern life: It has improved natural materials and it has synthesized natural and artificial materials that have, in turn, improved health, increased comfort, and added to the convenience of nearly every product manufactured today.
The advent of organic chemistry is often associated with the discovery in 1828 by the German chemist Friedrich Wöhler that the inorganic, or mineral, substance called ammonium cyanate could be converted in the laboratory to urea, an organic substance found in the urine of many animals.
Organic chemistry is the scientific study of the structure, properties, composition, reactions, and synthesis of organic compounds that by definition contain carbon.
Organic compounds tend to be much more soluble in organic solvents such as ether or alcohol, but the solubility in each solute depends upon the functional groups present and on the overall structure.
Organic chemistry is the scientific study of the structure, properties, composition, reactions, and synthesis of organic compounds...
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