because god made it this way.
The earth's atmosphere scatters sunlight in all directions, which is why the sky appears blue to our eyes. This scattering effect is stronger for shorter wavelengths of light, such as blue and violet, but blue light is scattered more efficiently than violet light due to its longer wavelength, resulting in the sky appearing blue.
The color of the sky during the day is typically blue due to the scattering of sunlight by the Earth's atmosphere. The molecules in the atmosphere scatter shorter wavelengths of light, such as blue and violet, more efficiently than longer wavelengths, giving the sky its blue appearance.
d wave length of violet colour is more than d wavelength of blue colour
The sky appears blue during the day because molecules in the air scatter sunlight in all directions. This scattering of shorter wavelength light - like blue and violet – is more prevalent, which gives the sky its blue color. At sunrise and sunset, the sky appears orange or red because the sunlight has to pass through more of Earth's atmosphere, scattering the blue and violet light and leaving the longer wavelength red and orange light dominate.
The blueness of the sky is due to Rayleigh scattering, where shorter wavelengths of light (blue and violet) are scattered more by the atmosphere than longer wavelengths. This scattering causes the blue light to be redirected in all directions, making the sky appear blue to our eyes.
The sky appears blue instead of violet because of the way Earth's atmosphere scatters sunlight. Blue light is scattered more easily than violet light, causing the sky to appear blue to our eyes.
The sky appears blue instead of violet because of the way Earth's atmosphere scatters sunlight. Blue light is scattered more than violet light, making the sky appear blue to our eyes.
The earth's atmosphere scatters sunlight in all directions, which is why the sky appears blue to our eyes. This scattering effect is stronger for shorter wavelengths of light, such as blue and violet, but blue light is scattered more efficiently than violet light due to its longer wavelength, resulting in the sky appearing blue.
PINK ---> grey , purple , brown :) PURPLE-----> pink , sky blue , black :) BLUE ----> sky blue, Violet , yellow
Indigo can be described as a deep blue/purple color, similar to the color, blue-violet.
According to RAYLEIGH scattering intensity is inversely proportional to the fourth power of wavelength so blue violet and indigo has shorter wavelength and more intensity when it gets scattered our eyes is sensitive to blue colour so sky appears blue to our eyes not violet or indigo
The color of the sky during the day is typically blue due to the scattering of sunlight by the Earth's atmosphere. The molecules in the atmosphere scatter shorter wavelengths of light, such as blue and violet, more efficiently than longer wavelengths, giving the sky its blue appearance.
d wave length of violet colour is more than d wavelength of blue colour
Blue Violet.
The sky appears blue during the day because molecules in the air scatter sunlight in all directions. This scattering of shorter wavelength light - like blue and violet – is more prevalent, which gives the sky its blue color. At sunrise and sunset, the sky appears orange or red because the sunlight has to pass through more of Earth's atmosphere, scattering the blue and violet light and leaving the longer wavelength red and orange light dominate.
Blue-violet is typically made by mixing the colors blue and violet together. Mixing blue and violet in varying amounts will produce different shades of blue-violet.
ANSWER: Blue, Indigo and violet are strongly bent that mostly skim through the upper atmosphere making the sky appear blue.