Electromagnetic spectrum: Difference between revisions

Latest revision as of 06:46, 29 March 2024

The ordered sequence of all known electromagnetic radiations, extending from the shortest cosmic rays through gamma rays, x-rays, ultraviolet radiation, visible radiation, infrared radiation, and including microwave and all other radio wavelengths.
The division of this continuum of wavelengths (or frequencies) into a number of named subportions is rather arbitrary and, with one or two exceptions, the boundaries of the several subportions are only vaguely defined. Nevertheless, to each of the commonly identified subportions there correspond characteristic types of physical systems capable of emitting radiation at those wavelengths. Thus, gamma rays are emitted from the nuclei of atoms as they undergo any of several types of nuclear rearrangements; visible light is emitted, for the most part, by atoms with planetary electrons undergoing transitions to lower energy states; infrared radiation is associated with characteristic molecular vibrations and rotations; and radio waves, broadly speaking, are emitted by virtue of the accelerations of free electrons in metals as, for example, the moving electrons in a radio antenna wire.

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+The ordered sequence of all known [[electromagnetic radiations]], extending  from the shortest [[cosmic rays]] through [[gamma rays]], [[x-rays]], [[ultraviolet radiation]], [[visible radiation|visible  radiation]], [[infrared radiation]], and including [[microwave]] and all other radio [[wavelengths]].<br/> The division of this continuum of wavelengths (or frequencies) into a number of named subportions  is rather arbitrary and, with one or two exceptions, the boundaries of the several subportions  are only vaguely defined. Nevertheless, to each of the commonly identified subportions there  correspond characteristic types of physical systems capable of emitting [[radiation]] at those wavelengths.  Thus, gamma rays are emitted from the nuclei of atoms as they undergo any of several  types of nuclear rearrangements; visible [[light]] is emitted, for the most part, by atoms with planetary  electrons undergoing transitions to lower [[energy]] states; infrared radiation is associated with characteristic  molecular vibrations and rotations; and [[radio waves]], broadly speaking, are emitted by  virtue of the accelerations of [[free electrons]] in metals as, for example, the moving electrons in a  radio [[antenna]] wire.
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-== electromagnetic spectrum ==
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-<div class="definition"><div class="short_definition">The ordered sequence of all known [[electromagnetic radiations]], extending  from the shortest [[cosmic rays]] through [[gamma rays]], [[x-rays]], [[ultraviolet radiation]], [[visible  radiation]], [[infrared radiation]], and including [[microwave]] and all other radio [[wavelengths]].</div><br/> <div class="paragraph">The division of this continuum of wavelengths (or frequencies) into a number of named subportions  is rather arbitrary and, with one or two exceptions, the boundaries of the several subportions  are only vaguely defined. Nevertheless, to each of the commonly identified subportions there  correspond characteristic types of physical systems capable of emitting [[radiation]] at those wavelengths.  Thus, gamma rays are emitted from the nuclei of atoms as they undergo any of several  types of nuclear rearrangements; visible [[light]] is emitted, for the most part, by atoms with planetary  electrons undergoing transitions to lower [[energy]] states; infrared radiation is associated with characteristic  molecular vibrations and rotations; and [[radio waves]], broadly speaking, are emitted by  virtue of the accelerations of [[free electrons]] in metals as, for example, the moving electrons in a  radio [[antenna]] wire.</div><br/> </div>
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