It’s one of the first things we learn as children — that the sky is blue. Yet, if we were to consult pure science rather than perception, we would discover that the sky should actually appear violet.
The reason lies not in the colour of the atmosphere itself, but in how sunlight interacts with the gases that envelop our planet, and how our own eyes interpret that light.
Sunlight, or white light, is a mixture of all the colours of the visible spectrum — from red, orange, and yellow to green, blue, indigo, and violet. When sunlight enters Earth’s atmosphere, it encounters molecules of nitrogen and oxygen that scatter the light in all directions.
This scattering is known as Rayleigh Scattering, named after the British physicist Lord Rayleigh who first described it in the 19th century. Importantly, this scattering is not equal across all wavelengths: shorter wavelengths of light (towards the blue and violet end of the spectrum) are scattered far more efficiently — nearly ten times more than red light.
In theory, this means violet light, being at the shortest wavelength of the visible spectrum, should dominate the scattered light that reaches our eyes from all directions.
If physics alone dictated our perception, we would look up to see a soft violet canopy stretching across the heavens. Yet, the sky appears blue instead — and the reason lies in the biology of human vision and the nature of sunlight itself.
The human eye contains three types of cone cells, each sensitive to different parts of the spectrum — red, green, and blue. Our eyes are most sensitive to blue light, but considerably less so to violet.
Though violet light is scattered more, our visual system simply does not pick it up as efficiently. Moreover, some of the violet light is absorbed by the upper layers of the atmosphere, particularly by ozone, which further reduces the amount of violet light that reaches us.
Additionally, sunlight is not perfectly balanced in its colour composition. The Sun emits slightly less violet light compared to blue, so the blue wavelengths dominate once the effects of scattering and human perception combine.
In essence, the sky’s true hue is hidden by both the quirks of our biology and the filtering properties of our atmosphere.
The heavens above are scientifically violet, yet appear blue to the human eye — a gentle reminder that what we see is not always what truly is.
The story is reported by Hrithik Kiran Bagade for The New Indian Express