Chemical change - Related Links
Open Access Articles- Top Results for Chemical change
Journal of HorticultureEffect of Different Priming Methods on Seed Quality,Biochemical Changes and Storability of China Aster (Callistephus Chinensis L. Nees)
Journal of Medical Diagnostic MethodsSequential Serum Phosphate and Urinary Biochemical Changes in Postoperative Systemic Inflammatory Response Syndrome: Potential Additional Diagnostic
Journal of Environmental & Analytical ToxicologyFluoride Induces Morphological and Biochemical Changes in Goat Eye Lens
Journal of Food Processing & TechnologyComparative Evaluation of Biochemical Changes in Different Safflower Varieties (Carthamus tinctorius L.) under Water Deficit
|It has been suggested that this article be merged with chemical reaction. (Discuss) Proposed since February 2015.|
Chemical changes occur when a substance combines with another to form a new substance, called synthesis or, alternatively, decomposes into two or more different substances. These processes are called chemical reactions and, in general, are not reversible except by further chemical reactions. Some reactions produce heat and are called exothermic reactions and others may require heat to enable the reaction to occur, which are called endothermic reactions. Understanding chemical changes is a major part of the science of chemistry.
When chemical reactions occur, the atoms are rearranged and the reaction is accompanied by an energy change as new products are generated. An example of a chemical change is the reaction between sodium and water to produce sodium hydroxide and hydrogen. So much energy is released that the hydrogen gas released spontaneously burns in the air. This is an example of a chemical change because the end products are chemically different from the substances before the reaction.
Chemists categorize chemical changes into three main classes: inorganic chemical changes, organic chemical changes and biochemical changes.
Inorganic chemistry describes the reactions of elements and compounds that, in general, do not involve carbon. The changes typically take place in laboratories, or on a larger scale in heavy industries.
Organic chemistry is concerned with the chemistry of carbon and the elements and compound with which it reacts. These compounds include mineral oil and all of its products and much of the output of industries manufacturing pharmaceuticals, paints, detergents, cosmetics, fuels etc. Typical examples of organic chemical changes include cracking heavy hydrocarbons at an oil refinery to create more gasoline from crude oil, as gasoline is in higher demand than the heavier hydrocarbons, such as residual fuel oils. Other reactions include, methylation, condensation reactions, polymerisation, halogenation etc.
Biochemistry deals with the chemistry of the growth and activity of living organisms. It is a chemistry where most reactions are controlled by complex proteins called enzymes and are moderated and limited by hormones. The chemistry is always highly complex and is still not fully understood. Decomposition of organic material is also within the scope of biochemistry although in this case it is the growth and activity of fungi, bacteria and other micro-organisms that is involved. Typical types of change include all the process involved in photosynthesis, a process in which carbon dioxide and water are changed into sugars and oxygen by plants, digestion in which energy rich materials are used by organisms to grow and move, Krebs cycle which liberates energy from stored reserves, protein synthesis which enable organisms to grow using processes controlled by RNA etc.
Evidence of a chemical change
The following can indicate that a chemical change has taken place, although this evidence is not conclusive:
- Change of odor.
- Change of color (for example, silver to reddish-brown when iron rusts).
- Change in temperature or energy, such as the production (exothermic) or loss (endothermic) of heat.
- Change of composition - paper turning to ash when burned.
- Light and/or heat given off.
- Formation of gases, often appearing as bubbles in liquids.
- Formation of a precipitate (insoluble particles).
- The decomposition of organic matter (for example, rotting food).
- The change is difficult or impossible to reverse.