ARTICLES

The sky is blue as a result of Rayleigh scattering. Rayleigh scattering represents the high frequency of gas molecules hitting and absorbing blue light. As the horizon turns pale, the blue light has to pass through more ...

www.reference.com/article/sky-blue-d25035bd6c966719

Kids and curious adults alike have long asked the question of why the sky is blue. While science has come a long way in explaining the sky’s appearance, people didn’t always know the answer. But as early as 1509, Leonard...

www.reference.com/article/first-explained-sky-blue-1df304b5c4568613

The sky appears blue because of the scattering of sunlight by atmospheric molecules, or Rayleigh scattering. Rayleigh scattering results in a blue sky because it is most noticeable at shorter wavelengths.

www.reference.com/article/sky-blue-4761ced511137f27

SIMILAR ARTICLES

The sky appears blue because of the scattering of sunlight by atmospheric molecules, or Rayleigh scattering. Rayleigh scattering results in a blue sky because it is most noticeable at shorter wavelengths.

www.reference.com/article/sky-blue-4761ced511137f27

On a clear day the sky is blue to deep blue. At dawn and dusk the stretch of sky nearest the sun changes to shades of red, orange and yellow. The color of the sky is primarily determined by the way air molecules scatter ...

www.reference.com/article/color-sky-57415a85ea2a95cd

The southern lights, or the "aurora australis," are diffuse sheets of lights in the sky of the southern hemisphere. The aurora australis are the southern hemisphere’s counterpart to the northern lights, or aurora boreali...

www.reference.com/article/southern-lights-a33c0ab5131ddebb

There are many proximate causes for changes to the color of the sky, but they all involve the way light is diffracted through the air. Light from the sun can be bent as it moves through the Earth's atmosphere, and the wa...

www.reference.com/science/sky-change-colors-e5391027cbcdf726