because of how the sun looks through the atmosphere when your looking at it straight on
Sunsets and sunrises have different colors because of the way sunlight interacts with the Earth's atmosphere. During sunrise and sunset, sunlight has to pass through more of the Earth's atmosphere, which scatters shorter wavelengths like blue and green light, leaving longer wavelengths like red and orange to dominate the sky. This scattering effect is what gives sunsets and sunrises their vibrant colors.
red is the farthest of all colors Because the wavelength of red is less than the wavelength of blue. Meaning the red wavelength is shorter than the blue one. The shorter it is the farthest and slowest it reach the earth's atmosphere before it dispersed to sky.
yes the sky is purple when the sun rises or sets. The colors make a combination or darkish-lightish pink a tad blinding sunlight white and mostly purple. These light-wave-colors will get trapped in our atmosphere causing our atmosphere to show the color as it rises and sets
Chlorophyll, the green pigment found in plants, primarily absorbs red and purple wavelengths of light, specifically in the blue (around 430-450 nm) and red (around 640-680 nm) regions of the spectrum. This absorption is crucial for photosynthesis, as it enables plants to convert light energy into chemical energy. Other pigments, such as anthocyanins in fruits and flowers, can also absorb red and purple wavelengths, contributing to their vibrant colors.
Mountains can appear purple in the distance due to atmospheric scattering of light. When sunlight passes through the atmosphere, shorter wavelengths like blue and green are scattered, while longer wavelengths like red and purple are allowed to pass through. This causes distant mountains to appear blue or purple as the shorter wavelengths are filtered out by the atmosphere.
Sunsets and sunrises have different colors because of the way sunlight interacts with the Earth's atmosphere. During sunrise and sunset, sunlight has to pass through more of the Earth's atmosphere, which scatters shorter wavelengths like blue and green light, leaving longer wavelengths like red and orange to dominate the sky. This scattering effect is what gives sunsets and sunrises their vibrant colors.
Purple absorbs yellow and green colors. When white light containing all colors of the spectrum shines on a purple object, the object absorbs these two colors and reflects back the blue and red wavelengths, creating the perception of purple.
When red and blue colors are mixed together, they combine to create the color purple because of the way our eyes perceive and interpret different wavelengths of light. The red and blue light waves overlap and are absorbed by our eyes, creating the sensation of purple.
You get purple. Blue and red are primary colors that can be combined to create secondary colors like purple.
Green purple and blue are warm colors purple green and orange are secondary colors
A purple object reflects primarily purple light, which is a combination of red and blue wavelengths. When light shines on the object, it absorbs all other colors of the spectrum and reflects back only the purple light to our eyes.
Purple is visible because it is a combination of both red and blue light on the color spectrum. When these colors are mixed together, they create the perception of purple. So, the cones in our eyes that detect red and blue wavelengths are both stimulated when we see purple, allowing us to perceive it as a distinct color.
close, but no. these 2 colors do: blue & red.
Purple and red makes blue Red + purple = blue
Blue and purple are the colors of honor.
Blue and red are the two colors that combine to make purple.
The colours: Blue and Red mixed together make purple.