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The line of sight, also known as visual axis or sightline (also sight line), is an imaginary line between a viewer/observer/spectator's eye(s) and a subject of interest, or their relative direction. The subject may be any definable object taken note of or to be taken note of by the observer, at any distance more than least distance of distinct vision. In optics, refraction of a ray due to use of lenses can cause distortion. Shadows, patterns and movement can also influence line of sight interpretation (as in optical illusions).

The term "line" typically presumes that the light by which the observed object is seen travels as a straight ray, which is sometimes not the case as light can take a curved/angulated path when reflected from a mirror, refracted by a lens or density changes in the traversed media, or deflected by a gravitational field. Fields of study feature specific targets, such as vessels in navigation, marker flags or natural features in surveying, celestial objects in astronomy, and so on. To have optimal observational outcome, it is preferable to have a completely unobstructed sightline.

Applications

Sightline (architecture)
Line-of-sight range
Line-of-sight (missile), the straight line between the missile and the target
Line-of-sight propagation, electro-magnetic waves travelling in a straight line
- Non-line-of-sight propagation
Line-of-sight fire, shooting directly at a visible target on a relatively flat trajectory
Line-of-sight velocity, an object's speed straight towards or away from an observer
Line-of-sight double star, one in which two stars are only coincidentally close together as seen from Earth
Beyond visual line of sight

References

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 {{other uses}}
 {{unsourced|date=May 2022}}
-The '''line of sight''', also known as '''visual axis''' or '''sightline''' (also '''sight line'''), is an [[imaginary line]] between a viewer/[[observation|observer]]/[[wikt:spectator|spectator]]'s [[eye]](s) and a subject of interest, or their [[relative direction (geometry)|relative direction]].
+The '''line of sight''', also known as '''visual axis''' or '''sightline''' (also '''sight line'''), is an [[imaginary line]] between a viewer/[[observation|observer]]/[[wikt:spectator|spectator]]'s [[eye]](s) and a subject of interest, or their [[relative direction (geometry)|relative direction]]. The subject may be any definable object taken note of or to be taken note of by the observer, at any distance more than least distance of distinct vision. In [[optics]], refraction of a ray due to use of [[lenses]] can cause distortion. Shadows, patterns and movement can also influence line of sight interpretation (as in [[optical illusions]]).
+The term "line" typically presumes that the [[light]] by which the observed object is seen travels as a straight [[ray (optics)|ray]], which is sometimes not the case as light can take a curved/angulated path when [[reflection (physics)|reflect]]ed from a [[mirror]], [[refract]]ed by a [[lens]] or [[density]] changes in the [[optical medium|traversed media]], or [[gravitational lens|deflected by a gravitational field]]. Fields of study feature specific targets, such as vessels in navigation, marker flags or natural features in surveying, celestial objects in astronomy, and so on. To have optimal observational outcome, it is preferable to have a completely unobstructed sightline.
-The subject may be any definable object taken note of or to be taken note of by the observer, at any distance more than least distance of distinct vision.
-In [[optics]], refraction of a ray due to use of [[lenses]] can cause distortion. Shadows, patterns and movement can also influence line of sight interpretation (as in [[optical illusions]]).
-The term "line" typically presumes that the [[light]] by which the observed object is seen travels as a straight [[ray (optics)|ray]], which is sometimes not the case as light can take a curved/angulated path when [[reflection (physics)|reflect]]ed from a [[mirror]], [[refract]]ed by a [[lens]] or [[density]] changes in the [[optical medium|traversed media]], or [[gravitational lens|deflected by a gravitational field]].
-fields of study feature specific targets, such as vessels in navigation, marker flags or natural features in surveying, celestial objects in astronomy, and so on. To have optimal observational outcome, it is preferable to have a completely unobstructed sightline.
 ==Applications==