Reflection: Difference between revisions

<div class="definition"><div class="short_definition">A change of direction and possibly [[amplitude]] of an electromagnetic, acoustic, or any  other [[wave]] propagating in a material medium, as a consequence of spatial [[variation]] in the properties  of the medium.</div><br/> <div class="paragraph">In specular (mirrorlike) reflection, the spatial variation is abrupt (on the [[scale]] of the [[wavelength]]),  as at an [[interface]] between water and air. [[Specular reflection]] is described by the law of  reflection, according to which incident and reflected waves lie in the plane of incidence, defined  by the normal to the interface and the direction of the incident wave, and make the same [[angle  of incidence]] with this normal. Specular reflection is distinguished from [[refraction]] in that the  direction of propagation of the reflected wave has a component opposite the direction of the  incident wave. Although the law of (specular) reflection is often a good approximation, it is not  exact: [[Diffuse reflection]] in directions not accounted for by the law of reflection always accompanies  specular reflection because matter is not homogeneous on all scales. Light reflected by a [[cloud]]  illuminated by [[sunlight]] is an example of diffuse reflection. Reflection may also refer to the change  of direction of a [[beam]] of [[particles]], in the broadest sense of this term.</div><br/> </div>