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A '''chemical reaction''' is a process that transforms one set of [[Chemistry|chemical]] substances to another. As shown at right for a general case, the participating '''reactants''' typically must surmount a threshold or ''activation energy'' to initiate the reaction, and '''intermediates''' exist briefly before the final '''products''' are formed. The study of chemical reactions is part of the field of [[science]] called [[chemistry]].<ref name=Explained>[http://www.chemistryexplained.com/Ce-Co/Chemical-Reactions.html Chemistry Explained] Chemistry Encyclopedia</ref>
A '''chemical reaction''' is a process that transforms one set of [[Chemistry|chemical]] substances to another. As shown at right for a general case, the participating '''reactants''' typically must surmount a threshold or ''activation energy'' to initiate the reaction, and '''intermediates''' exist briefly before the final '''products''' are formed. The study of chemical reactions is part of the field of [[science]] called [[chemistry]].<ref name=Explained>[http://www.chemistryexplained.com/Ce-Co/Chemical-Reactions.html Chemistry Explained] Chemistry Encyclopedia</ref>


Chemical reactions can result in [[molecule]]s attaching to each other to form larger molecules, molecules breaking apart to form two or more smaller molecules, or rearrangement of [[atom]]s within or across molecules. Chemical reactions usually involve the making or breaking of [[chemical bond]]s.
Chemical reactions can result in [[molecule]]s attaching to each other to form larger molecules, molecules breaking apart to form two or more smaller molecules, or rearrangement of [[atom]]s within or across molecules. Chemical reactions usually involve the making or breaking of [[chemical bond]]s, and in some types of reaction may involve production of electrically charged end products.


Chemical reactions can be either spontaneous<ref name=Rosengarten>[http://www.youtube.com/watch?v=m1nKEz2DPC0 Chemistry Tutorials: Entropy, Enthalpy and Spontaneous Reactions]</ref> and require no input of [[energy]], or non-spontaneous<ref name=Rosengarten/> which often require the input of some type of energy such as [[heat]], [[light]] or [[electricity]]. Classically, chemical reactions are strictly transformations that involve the movement of [[electron]] in the forming and breaking of [[chemical bond]]s. A more general concept of a chemical reaction would include [[nuclear reactions]] and [[Elementary particle|elementary particle reactions]].
Chemical reactions can be either spontaneous<ref name=Rosengarten>[http://www.youtube.com/watch?v=m1nKEz2DPC0 Chemistry Tutorials: Entropy, Enthalpy and Spontaneous Reactions]</ref> and require no input of [[energy]], or non-spontaneous<ref name=Rosengarten/> which often require the input of some type of energy such as [[heat]], [[light]] or [[electricity]]. Classically, chemical reactions are strictly transformations that involve the movement of [[electron]] in the forming and breaking of [[chemical bond]]s. A more general concept of a chemical reaction would include [[nuclear reactions]] and [[Elementary particle|elementary particle reactions]].

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(PD) Image: John R. Brews
A typical reaction path. In this example, energy is released. See Bergmann et al.[1].

A chemical reaction is a process that transforms one set of chemical substances to another. As shown at right for a general case, the participating reactants typically must surmount a threshold or activation energy to initiate the reaction, and intermediates exist briefly before the final products are formed. The study of chemical reactions is part of the field of science called chemistry.[2]

Chemical reactions can result in molecules attaching to each other to form larger molecules, molecules breaking apart to form two or more smaller molecules, or rearrangement of atoms within or across molecules. Chemical reactions usually involve the making or breaking of chemical bonds, and in some types of reaction may involve production of electrically charged end products.

Chemical reactions can be either spontaneous[3] and require no input of energy, or non-spontaneous[3] which often require the input of some type of energy such as heat, light or electricity. Classically, chemical reactions are strictly transformations that involve the movement of electron in the forming and breaking of chemical bonds. A more general concept of a chemical reaction would include nuclear reactions and elementary particle reactions.

Energy changes in reactions

(PD) Diagram: Milton Beychok
Energy level diagrams of exothermic and endothermic reactions.[4]

In terms of the energy changes that take place during chemical reactions, a reaction may be either exothermic or endothermic ... terms which were first coined by the French chemist Marcellin Berthelot (1827 − 1907). The meaning of those terms and the difference between them are discussed below and illustrated in the adjacent diagram of the energy profiles for exothermic and endothermic reactions.

Exothermic reactions

Exothermic chemical reactions release energy. The released energy may be in the form of heat, light (for example, flame), electricity (for example, battery discharge), sound and shock waves (for example, explosion) … either singly or in combinations.

A few examples of exothermic reactions are:

Endothermic reactions

Endothermic chemical reactions absorb energy. The energy absorbed may be in various forms just as is the case with exothermic reactions:

A few examples of endothermic reactions are:

Reaction types

The common kinds of classical chemical reactions include:[5][6][7]

N2 + 3 H2 → 2 NH3
2 H2O → 2 H2 + O2
2 Na(s) + 2 HCl(aq) → 2 NaCl(aq) + H2(g)
NaCl(aq) + AgNO3(aq) → NaNO3(aq) + AgCl(s)
  • Acid-base reactions, broadly characterized as reactions between an acid and a base, can have different definitions depending on the acid-base concept employed. Some of the most common are:
    • Arrhenius definition: Acids dissociate in water releasing H3O+ ions; bases dissociate in water releasing OH ions.
    • Brønsted-Lowry definition: Acids are proton (H+) donors; bases are proton acceptors. Includes the Arrhenius definition.
    • Lewis definition: Acids are electron-pair acceptors; bases are electron-pair donors. Includes the Brønsted-Lowry definition.
  • Redox reactions, in which changes in the oxidation numbers of atoms in the involved species occur. Those reactions can often be interpreted as transferences of electrons between different molecular sites or species. An example of a redox reaction is:
2 S2O32−(aq) + I2(aq) → S4O62−(aq) + 2 I(aq)
In which iodine (I2) is reduced to the iodine anion (I) and the thiosulfate anion (S2O32−) is oxidized to the tetrathionate anion (S4O62−).
  • Combustion, a kind of redox reaction in which any combustible substance combines with an oxidizing element, usually oxygen, to generate heat and form oxidized products.
CH4 + 2 O2CO2 + 2 H2O
  • Disproportionation with one reactant forming two distinct products varying in oxidation state.
2 Sn2+Sn + Sn4+

References

  1. Nikolaus Risch (2002). “Molecules - bonds and reactions”, L. Bergmann et al.: Constituents of Matter: Atoms, Molecules, Nuclei, and Particles. CRC Press. ISBN 0-8493-1202-7. 
  2. Chemistry Explained Chemistry Encyclopedia
  3. 3.0 3.1 Chemistry Tutorials: Entropy, Enthalpy and Spontaneous Reactions
  4. Paul Collison, David Kirby and Averil Macdonald (2002). Nelson Modular Science, Volume 2. Nelson Thorne Ltd.. ISBN 0-7487-6247-7. 
  5. In the following chemical equations, (aq) indicates an aqueous solution, (g) indicates a gas and (s) indicates a solid. Superscripts with a positive sign (+) indicate an cation and superscripts with a negative sign (−) indicate an anion.
  6. H. Stephen Stoker (2006). General, Organic, and Biological Chemistry, 4th Edition. Brooks Cole. ISBN 0-618-60606-8. 
  7. Mark S. Cracolice and Edward I. Peters (2009). Introductory Chemistry: An Active Learning Approach, 4th Edition. Brooks Cole. ISBN 0-495-55847-8.