Why sky looks blue not red???
The sky is blue in light of the fact that the occurrence light connects with the gas particles noticeable all around in, for example, design that a greater amount of the light in the blue piece of the range is scattered, achieving our eyes on the surface of the planet. Every one of the frequencies of the occurrence light can be scattered along these lines, however the high-recurrence (short wavelength) blue is scattered more than the lower frequencies in a procedure known as Rayleigh dispersing, depicted in the 1870′s. John William Strutt, Lord Rayleigh, who additionally won the Nobel Prize in material science in 1904 for the revelation of argon, showed that, when the wavelength of the light is on an indistinguishable request from the extent of the gas atoms, the force of scattered light differs conversely with the fourth energy of its wavelength. Shorter wavelengths like blue (and violet) are scattered more than longer ones. All the atoms noticeable all around specially shine blue, which is the thing that we at that point see wherever around us.
However, the sky ought to seem violet since violet light is scattered significantly more than blue light. Be that as it may, the sky does not seem violet to us in view of the last, organic piece of the confound, which is the way our eyes are outlined: they are more touchy to blue than violet light.
The clarification for why the sky is blue includes such a large amount of the regular sciences: the hues inside the visual range, the wave idea of light, the edge at which daylight hits the air, the arithmetic of dissipating, the span of nitrogen and oxygen particles, and even the way human eyes see shading. It's the majority of science in an inquiry that a youthful youngster can inquire.
There are really two reasons why the sky is blue. It is blue in the daytime since Rayleigh disseminating in air (fundamentally Nitrogen) disperses more blue light than red and green. So light scattered towards your eyes from the air above you looks blue, while daylight looks somewhat yellow. Early or late in the day, as the sun gets bring down
in the sky, it must go through more air, so late evening and early morning light is dimmer, and yellower, than at late morning.
In any case, if just single-occasion Rayleigh dispersing were included, the sky would turn a dull yellow or darker shading at sundown, dawn and nightfall, since so minimal blue light would achieve overhead that exclusive red and green generally remain. This does not occur, for two reasons:
Right off the bat some light is scattered more than once, so blue light that has at first been occupied from its way can be scattered once more, giving it "another opportunity" to achieve your eyes.
Also, Earth has an ozone layer at around 22km elevation. The ozone layer doesn't diffuse much, yet it unequivocally assimilates light in the red and green wavelengths, abandoning blue light. Since the light of a low sun needs to movement far through the ozone layer, this retention has a substantially more grounded affect on the shade of the sky at these circumstances, bringing about a diminish dusk blue which has a marginally unique shade to the daylit sky.