Difference between revisions of "X-ray"

Revision as of 18:01, 21 February 2019

X-rays are the second highest frequency and second shortest wavelength electromagnetic waves.

X-rays can travel through a vacuum as well as through gases in the Earth's atmosphere.

The speed of x-rays through a vacuum is 300,000,000m/s.

As a wave x-rays can be:

Transmitted - X-rays can pass through a medium.
Absorbed - The energy transferred by x-rays can be taken in by certain materials.
Reflected - X-rays can bounce off an interface between two media, particularly the surface of a shiny metal.
Refracted - X-rays can change direction when they cross the interface between two media.

X-rays can cause electrons in many materials to gain enough energy to leave atoms creating ions which can destroy chemical bonds.

X-rays can penetrate soft tissue such as the skin.

X-rays cannot pass through heavy metals (metals with a high atomic mass).

X-rays can be used to create medical images of bones because they can penetrate soft tissue such as the skin and are refracted by bones.

X-rays can be used to create medical images of the intestines when a human ingests Barium Sulphate because X-rays cannot pass through heavy metals (metals with a high atomic mass).

X-rays can cause cancer because x-rays can penetrate soft tissue and can ionise and damage DNA molecules in the body cells leading to a mutation.

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 '''X-rays''' are the second highest [[frequency]] and second shortest [[wavelength]] [[Electromagnetic Wave|electromagnetic waves]].
-===About Ultra-violet===
+===About X-rays===
 : [[X-ray]]s are [[Transverse Wave|transverse waves]].
 : [[X-ray]]s can travel through a [[vacuum]] as well as through [[gas]]es in the [[Earth's Atmosphere|Earth's atmosphere]].