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In Organic Chemistry , functional groups (or moieties) are specific groups of Atom s within Molecule s, that are responsible for the characteristic Chemical Reaction s of those molecules. The same functional group will undergo the same or similar chemical reaction(s) regardless of the size of the molecule it is a part of. Combining the names of functional groups with the names of the parent Alkane s generates a powerful Systematic Nomenclature for naming Organic Compound s. The non-hydrogen atoms of functional groups are always associated with each other and with the rest of the molecule by Covalent Bond s. When the group of atoms is associated with the rest of the molecule primarily by ionic forces, the group is referred to more properly as a Polyatomic Ion or Complex Ion . And all of these are called Radical s, by a meaning of the term ''radical'' that predates the Free Radical . The first Carbon atom after the carbon that attaches to the functional group is called the Alpha Carbon . Functional groups are attached to the carbon backbone of organic molecules. They determine the characteristics and chemical reactivity of molecules. Functional groups are far less stable than the carbon backbone and are likely to participate in chemical reactions. = Table of common functional groups = The following is a list of common functional groups. In the formulas, the symbols R and R' usually denote an attached hydrogen, or a Hydrocarbon Side Chain of any length, but may sometimes refer to any group of atoms. HYDROCARBONS Functional groups which vary based upon the number and order of π bonds impart different chemistry. Each listing below contains C-H bonds, but each one differs in type (and scope) of reactivity. GROUPS CONTAINING HALOGENS Haloalkanes are a class of molecule which is defined by a carbon- Halogen bond. This bond can be relatively weak (in the case of an iodoalkane) or quite stable (as in the case of a fluoroalkane). In general, with the exception of Fluorinated compounds, haloalkanes readily undergo Nucleophilic Substitution reactions or Elimination Reaction s. The substitution on the carbon, the acidity of an adjacent proton, the solvent conditions, etc. all can influence the outcome of the reactivity. GROUPS CONTAINING OXYGEN Compounds which contain C-O bonds each possess differing reactivity based upon the location and Hybridization of the C-O bond, owing to the electron-withdrawing effect of sp2 hybridized oxygen and the donating effects of sp3 hybridized oxygen. GROUPS CONTAINING NITROGEN Compounds which contain Nitrogen in this category may contain C-O bonds, such as in the case of Amides . GROUPS CONTAINING PHOSPHORUS AND SULFUR Compounds which contain sulfur and phosphorus exhibit unique chemistry due to their ability to form more bonds than nitrogen and oxygen, their lighter analogues on the periodic table. OTHER
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