Want this question answered?
When the water droplets are in the air, light from the sun passes through them, and because of their small size and refractive properties, the water droplets break the sunlight into its constituent colors of light at different wavelengths.
No. Water droplets in the air act as tiny prisms. When the Sun hits them, light is reflected back to your eyes, but since the water droplets are not flat, the different colors of sunlight are spread apart just enough to see them separately. We often call this a 'Rainbow'.
Sunlight has seven colors because the atmosphere acts as a filter, it changes the color, for instance the setting sun, looks yellow or orange.
Going through a prism, light is decomposed into every color in it. The sunlight shining through the droplets of moisture in the Earth's atmosphere make the spectrum of light appear in a semi-circular form. Keep in mind that the colors you can see is only the colors that can be seen by the human eye - infra-red and infra violet will be present in a rainbow but will not be visible to us.
In this case, the sunlight must go farther through our atmosphere. The atmosphere lets red light through more easily than other colors.
the water droplets after the rain remains in the atmosphere. When the sunlight passes through this droplets the white light of the sun splits in to 7 colors this colors forms the rainbow
a phenomenon called dispersion. This causes the different wavelengths of light to separate, resulting in the formation of a rainbow. The droplets act as miniature prisms, bending and reflecting light to create the distinctive bands of colors.
A rainbow
They come from the sunlight that's shining into the moisture-laden air in front of you. The colors are always there in the sunlight. They just have to be spread out before you can see them, and the water droplets in the air do that job.
Colors are able to form by water droplets that can break sunlight into several colors of the spectrum. Colors can also form by light absorption, emission spectra and reflection.
The colors of the rainbow are all present in sunlight, but mixed together. As sunlight passes through small water droplets in foggy air, the water droplets act as lenses which alter the direction of the light, and which affect different colors to different degrees, thereby breaking up the white light into a spectrum.
The colors of the rainbow are all present in sunlight, but mixed together. As sunlight passes through small water droplets in foggy air, the water droplets act as lenses which alter the direction of the light, and which affect different colors to different degrees, thereby breaking up the white light into a spectrum.
As sunlight passes through the stratosphere, it will be scattered and produce different colors. That's why we see colors on earth.
The colors are there in the sunlight all the time. The little water droplets in the air just spread them out, so you can see them separately.
Right after a thunderstorm, there will still be some water droplets in the sky. When the sunlight shines on these water droplets, the white light that is reflected off the water droplets is split into seven different colours: red, orange, yellow, green, blue, violet, indigo.
When the water droplets are in the air, light from the sun passes through them, and because of their small size and refractive properties, the water droplets break the sunlight into its constituent colors of light at different wavelengths.
These spectacular events in the sky are caused by the interaction of sunlight with particles and molecules in the Earth's atmosphere. Rainbows are formed when sunlight is refracted and reflected by water droplets in the air, creating a spectrum of colors. Red sunsets occur when the sun's light passes through more of the Earth's atmosphere, scattering shorter wavelengths of light and leaving behind the colors with longer wavelengths, like red and orange. Blue skies are a result of Rayleigh scattering, where shorter blue wavelengths of light are scattered more than other colors by gas molecules in the atmosphere.