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This rainbow is caused by light being refracted when entering a droplet of water, then reflected inside on the back of the droplet and refracted again when leaving it.
In a double rainbow, a second arc is seen outside the primary arc, and has the order of its colours reversed, with red on the inner side of the arc.
This is caused by the light being reflected twice on the inside of the droplet before leaving it. A rainbow is not located at a specific distance from the observer, but comes from an optical illusion caused by any water droplets viewed from a certain angle relative to a light source.
Thus, a rainbow is not an object and cannot be physically approached. Indeed, it is impossible for an observer to see a rainbow from water droplets at any angle other than the customary one of 42 degrees from the direction opposite the light source.
Even if an observer sees another observer who seems "under" or "at the end of" a rainbow, the second observer will see a different rainbow—farther off—at the same angle as seen by the first observer.
Rainbows span a continuous spectrum of colours. Any distinct bands perceived are an artefact of human colour vision , and no banding of any type is seen in a black-and-white photo of a rainbow, only a smooth gradation of intensity to a maximum, then fading towards the other side.
Rainbows can be caused by many forms of airborne water. These include not only rain, but also mist, spray, and airborne dew. Rainbows can be observed whenever there are water drops in the air and sunlight shining from behind the observer at a low altitude angle.
Because of this, rainbows are usually seen in the western sky during the morning and in the eastern sky during the early evening.
The most spectacular rainbow displays happen when half the sky is still dark with raining clouds and the observer is at a spot with clear sky in the direction of the sun.
The result is a luminous rainbow that contrasts with the darkened background. During such good visibility conditions, the larger but fainter secondary rainbow is often visible.
The rainbow effect is also commonly seen near waterfalls or fountains. In addition, the effect can be artificially created by dispersing water droplets into the air during a sunny day.
Rarely, a moonbow , lunar rainbow or nighttime rainbow, can be seen on strongly moonlit nights. As human visual perception for colour is poor in low light, moonbows are often perceived to be white.
Now that software for stitching several images into a panorama is available, images of the entire arc and even secondary arcs can be created fairly easily from a series of overlapping frames.
From above the earth such as in an aeroplane, it is sometimes possible to see a rainbow as a full circle. The sky inside a primary rainbow is brighter than the sky outside of the bow.
This is because each raindrop is a sphere and it scatters light over an entire circular disc in the sky. The radius of the disc depends on the wavelength of light, with red light being scattered over a larger angle than blue light.
Over most of the disc, scattered light at all wavelengths overlaps, resulting in white light which brightens the sky.
At the edge, the wavelength dependence of the scattering gives rise to the rainbow. A spectrum obtained using a glass prism and a point source is a continuum of wavelengths without bands.
The number of colours that the human eye is able to distinguish in a spectrum is in the order of The apparent discreteness of main colours is an artefact of human perception and the exact number of main colours is a somewhat arbitrary choice.
Newton, who admitted his eyes were not very critical in distinguishing colours,  originally divided the spectrum into five main colours: red, yellow, green, blue and violet.
Later he included orange and indigo, giving seven main colours by analogy to the number of notes in a musical scale. According to Isaac Asimov , "It is customary to list indigo as a colour lying between blue and violet, but it has never seemed to me that indigo is worth the dignity of being considered a separate colour.
To my eyes it seems merely deep blue. The colour pattern of a rainbow is different from a spectrum, and the colours are less saturated.
There is spectral smearing in a rainbow owing to the fact that for any particular wavelength, there is a distribution of exit angles, rather than a single unvarying angle.
Further red of the first supplementary rainbow overlaps the violet of the primary rainbow, so rather than the final colour being a variant of spectral violet, it is actually a purple.
The number of colour bands of a rainbow may therefore be different from the number of bands in a spectrum, especially if the droplets are particularly large or small.
Therefore, the number of colours of a rainbow is variable. If, however, the word rainbow is used inaccurately to mean spectrum , it is the number of main colours in the spectrum.
The question of whether everyone sees seven colours in a rainbow is related to the idea of linguistic relativity.
Suggestions have been made that there is universality in the way that a rainbow is perceived. When sunlight encounters a raindrop, part of the light is reflected and the rest enters the raindrop.
The light is refracted at the surface of the raindrop. When this light hits the back of the raindrop, some of it is reflected off the back.
When the internally reflected light reaches the surface again, once more some is internally reflected and some is refracted as it exits the drop.
The light that reflects off the drop, exits from the back, or continues to bounce around inside the drop after the second encounter with the surface, is not relevant to the formation of the primary rainbow.
Seawater has a higher refractive index than rain water, so the radius of a "rainbow" in sea spray is smaller than a true rainbow. This is visible to the naked eye by a misalignment of these bows.
If the sun were a laser emitting parallel, monochromatic rays, then the luminance brightness of the bow would tend toward infinity at this angle ignoring interference effects.
See Caustic optics. But since the sun's luminance is finite and its rays are not all parallel it covers about half a degree of the sky the luminance does not go to infinity.
Furthermore, the amount by which light is refracted depends upon its wavelength , and hence its colour. This effect is called dispersion.
Blue light shorter wavelength is refracted at a greater angle than red light, but due to the reflection of light rays from the back of the droplet, the blue light emerges from the droplet at a smaller angle to the original incident white light ray than the red light.
Due to this angle, blue is seen on the inside of the arc of the primary rainbow, and red on the outside. The result of this is not only to give different colours to different parts of the rainbow, but also to diminish the brightness.
A "rainbow" formed by droplets of a liquid with no dispersion would be white, but brighter than a normal rainbow. The light at the back of the raindrop does not undergo total internal reflection , and some light does emerge from the back.
However, light coming out the back of the raindrop does not create a rainbow between the observer and the sun because spectra emitted from the back of the raindrop do not have a maximum of intensity, as the other visible rainbows do, and thus the colours blend together rather than forming a rainbow.
A rainbow does not exist at one particular location. Many rainbows exist; however, only one can be seen depending on the particular observer's viewpoint as droplets of light illuminated by the sun.
All raindrops refract and reflect the sunlight in the same way, but only the light from some raindrops reaches the observer's eye.
This light is what constitutes the rainbow for that observer. The whole system composed by the sun's rays, the observer's head, and the spherical water drops has an axial symmetry around the axis through the observer's head and parallel to the sun's rays.
The rainbow is curved because the set of all the raindrops that have the right angle between the observer, the drop, and the sun, lie on a cone pointing at the sun with the observer at the tip.
It is possible to determine the perceived angle which the rainbow subtends as follows. The term double rainbow is used when both the primary and secondary rainbows are visible.
In theory, all rainbows are double rainbows, but since the secondary bow is always fainter than the primary, it may be too weak to spot in practice.
Secondary rainbows are caused by a double reflection of sunlight inside the water droplets. As a result of the "inside" of the secondary bow being "up" to the observer, the colours appear reversed compared to those of the primary bow.
The secondary rainbow is fainter than the primary because more light escapes from two reflections compared to one and because the rainbow itself is spread over a greater area of the sky.
Each rainbow reflects white light inside its coloured bands, but that is "down" for the primary and "up" for the secondary.
Unlike a double rainbow that consists of two separate and concentric rainbow arcs, the very rare twinned rainbow appears as two rainbow arcs that split from a single base.
A "normal" secondary rainbow may be present as well. Twinned rainbows can look similar to, but should not be confused with supernumerary bands.
The two phenomena may be told apart by their difference in colour profile: supernumerary bands consist of subdued pastel hues mainly pink, purple and green , while the twinned rainbow shows the same spectrum as a regular rainbow.
The cause of a twinned rainbow is the combination of different sizes of water drops falling from the sky. Due to air resistance, raindrops flatten as they fall, and flattening is more prominent in larger water drops.
When two rain showers with different-sized raindrops combine, they each produce slightly different rainbows which may combine and form a twinned rainbow.
That small difference in droplet size resulted in a small difference in flattening of the droplet shape, and a large difference in flattening of the rainbow top.
Meanwhile, the even rarer case of a rainbow split into three branches was observed and photographed in nature. In theory, every rainbow is a circle, but from the ground, usually only its upper half can be seen.
Viewing the rainbow's lower half requires the presence of water droplets below the observer's horizon, as well as sunlight that is able to reach them.
These requirements are not usually met when the viewer is at ground level, either because droplets are absent in the required position, or because the sunlight is obstructed by the landscape behind the observer.
From a high viewpoint such as a high building or an aircraft, however, the requirements can be met and the full-circle rainbow can be seen.
A circular rainbow should not be confused with the glory , which is much smaller in diameter and is created by different optical processes.
In the right circumstances, a glory and a circular rainbow or fog bow can occur together. In certain circumstances, one or several narrow, faintly coloured bands can be seen bordering the violet edge of a rainbow; i.
These extra bands are called supernumerary rainbows or supernumerary bands ; together with the rainbow itself the phenomenon is also known as a stacker rainbow.
The supernumerary bows are slightly detached from the main bow, become successively fainter along with their distance from it, and have pastel colours consisting mainly of pink, purple and green hues rather than the usual spectrum pattern.
Supernumerary rainbows cannot be explained using classical geometric optics. The alternating faint bands are caused by interference between rays of light following slightly different paths with slightly varying lengths within the raindrops.
Some rays are in phase , reinforcing each other through constructive interference , creating a bright band; others are out of phase by up to half a wavelength, cancelling each other out through destructive interference , and creating a gap.
Given the different angles of refraction for rays of different colours, the patterns of interference are slightly different for rays of different colours, so each bright band is differentiated in colour, creating a miniature rainbow.
Supernumerary rainbows are clearest when raindrops are small and of uniform size. The very existence of supernumerary rainbows was historically a first indication of the wave nature of light, and the first explanation was provided by Thomas Young in When a rainbow appears above a body of water, two complementary mirror bows may be seen below and above the horizon, originating from different light paths.
Their names are slightly different. A reflected rainbow may appear in the water surface below the horizon.
The reflected rainbow is frequently visible, at least partially, even in small puddles. A reflection rainbow may be produced where sunlight reflects off a body of water before reaching the raindrops, if the water body is large, quiet over its entire surface, and close to the rain curtain.
The reflection rainbow appears above the horizon. It intersects the normal rainbow at the horizon, and its arc reaches higher in the sky, with its centre as high above the horizon as the normal rainbow's centre is below it.
Due to the combination of requirements, a reflection rainbow is rarely visible. Up to eight separate bows may be distinguished if the reflected and reflection rainbows happen to occur simultaneously: The normal non-reflection primary and secondary bows above the horizon 1, 2 with their reflected counterparts below it 3, 4 , and the reflection primary and secondary bows above the horizon 5, 6 with their reflected counterparts below it 7, 8.
Occasionally a shower may happen at sunrise or sunset, where the shorter wavelengths like blue and green have been scattered and essentially removed from the spectrum.
Further scattering may occur due to the rain, and the result can be the rare and dramatic monochrome or red rainbow. In addition to the common primary and secondary rainbows, it is also possible for rainbows of higher orders to form.
The order of a rainbow is determined by the number of light reflections inside the water droplets that create it: One reflection results in the first-order or primary rainbow; two reflections create the second-order or secondary rainbow.
More internal reflections cause bows of higher orders—theoretically unto infinity. For these reasons, naturally occurring rainbows of an order higher than 2 are rarely visible to the naked eye.
Nevertheless, sightings of the third-order bow in nature have been reported, and in it was photographed definitively for the first time.
In a laboratory setting, it is possible to create bows of much higher orders. Felix Billet — depicted angular positions up to the 19th-order rainbow, a pattern he called a "rose of rainbows".
Up to the th-order rainbow was reported by Ng et al. Tertiary and quaternary rainbows should not be confused with "triple" and "quadruple" rainbows—terms sometimes erroneously used to refer to the—much more common—supernumerary bows and reflection rainbows.
Like most atmospheric optical phenomena, rainbows can be caused by light from the Sun, but also from the Moon.
In case of the latter, the rainbow is referred to as a lunar rainbow or moonbow. They are much dimmer and rarer than solar rainbows, requiring the Moon to be near-full in order for them to be seen.
For the same reason, moonbows are often perceived as white and may be thought of as monochrome. The full spectrum is present, however, but the human eye is not normally sensitive enough to see the colours.
Long exposure photographs will sometimes show the colour in this type of rainbow. Fogbows form in the same way as rainbows, but they are formed by much smaller cloud and fog droplets that diffract light extensively.
They are almost white with faint reds on the outside and blues inside; often one or more broad supernumerary bands can be discerned inside the inner edge.
The colours are dim because the bow in each colour is very broad and the colours overlap. Fogbows are commonly seen over water when air in contact with the cooler water is chilled, but they can be found anywhere if the fog is thin enough for the sun to shine through and the sun is fairly bright.
They are very large—almost as big as a rainbow and much broader. They sometimes appear with a glory at the bow's centre.
Fog bows should not be confused with ice halos , which are very common around the world and visible much more often than rainbows of any order ,  yet are unrelated to rainbows.
The circumzenithal and circumhorizontal arcs are two related optical phenomena similar in appearance to a rainbow, but unlike the latter, their origin lies in light refraction through hexagonal ice crystals rather than liquid water droplets.
This means that they are not rainbows, but members of the large family of halos. Both arcs are brightly coloured ring segments centred on the zenith , but in different positions in the sky: The circumzenithal arc is notably curved and located high above the Sun or Moon with its convex side pointing downwards creating the impression of an "upside down rainbow" ; the circumhorizontal arc runs much closer to the horizon, is more straight and located at a significant distance below the Sun or Moon.
Both arcs have their red side pointing towards the sun and their violet part away from it, meaning the circumzenithal arc is red on the bottom, while the circumhorizontal arc is red on top.
The circumhorizontal arc is sometimes referred to by the misnomer "fire rainbow". It has been suggested that rainbows might exist on Saturn 's moon Titan , as it has a wet surface and humid clouds.
Although visible rainbows may be rare due to Titan's hazy skies , infrared rainbows may be more common, but an observer would need infrared night vision goggles to see them.
Droplets or spheres composed of materials with different refractive indices than plain water produce rainbows with different radius angles.
Since salt water has a higher refractive index, a sea spray bow doesn't perfectly align with the ordinary rainbow, if seen at the same spot.
Due to a much higher refractive index, rainbows observed on such marbles have a noticeably smaller radius. Even the air you breathe can be cleaner and healthier.
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