X-ray: Difference between revisions
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X-rays are part of the Electromagnetic (EM) Spectrum and are located between [[Ultravoilet|Ultravoilet]] (UV) rays and [[Gamma rays|Gamma rays]]. They typically can have a [[Wavelength|wavelength of]] anywhere between 0.01 nm - 10 nm and can have varying energies. X-rays have clinical applications and can be | X-rays are part of the [[Electromagnetic (EM) Spectrum|Electromagnetic (EM) Spectrum]] and are located between [[Ultravoilet|Ultravoilet]] (UV) rays and [[Gamma rays|Gamma rays]]. They typically can have a [[Wavelength|wavelength of]] anywhere between 0.01 nm - 10 nm and can have varying energies. X-rays have clinical applications, such as the identification of [[pnuemonia|pnuemonia]] in the lungs<ref>http://www.nhs.uk/conditions/X-ray/Pages/Introduction.aspx</ref>, and can be used in medical imaging known as [[Radiography|radiography]].<br> | ||
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Latest revision as of 08:02, 22 October 2014
X-rays are part of the Electromagnetic (EM) Spectrum and are located between Ultravoilet (UV) rays and Gamma rays. They typically can have a wavelength of anywhere between 0.01 nm - 10 nm and can have varying energies. X-rays have clinical applications, such as the identification of pnuemonia in the lungs[1], and can be used in medical imaging known as radiography.