It is white colour,all the colours of VIBGYOR have been in the white colour,we know when white light passed through prism,it shows the split up of white light into seven colours,sun light is white. ---- Sunlight is not white, though it does contain a quantity of every colour we can see. What we perceive as colour depends on many things and is quite subjective. In one context the same object can appear (for example) yellow, green, grey or white. However if we ignore the subjective experience of colour, we can measure the colour of light objectively. One of the systems we use to measure colour is by comparing the relative strengths of the red, blue and green components of light. (These are the only colours we can actually see; all colours are described by our eyes to our brains in these terms.) White light would have equal components of red, green and blue, but sunlight does not.
the colour of sun light is white
The majority of photons leaving the Sun's surface are in the visible spectrum, with a peak intensity in the green region. This is why the Sun appears white when viewed from space, as it emits light across all visible wavelengths.
Mercury is a grey color, resembling the Moon's surface. Its surface is heavily cratered and lacks significant atmosphere, which contributes to its color.
The star of our sun is classified as a G-type main-sequence star, which gives it a white color. However, when we observe the sun from Earth's surface, the scattering of light in the atmosphere makes it appear yellow.
Sunspots appear dark in color because they are areas on the Sun's surface that are cooler compared to the surrounding areas. This temperature difference causes them to appear darker when observed against the hotter background of the Sun.
The part of the Sun that lies directly above the visible surface is called the photosphere. It is the outermost layer of the Sun that emits light and is the region where most of the Sun's energy is emitted as visible light.
the color of the sun sun depends on its surface temperature
The majority of photons leaving the Sun's surface are in the visible spectrum, with a peak intensity in the green region. This is why the Sun appears white when viewed from space, as it emits light across all visible wavelengths.
Mercury is a grey color, resembling the Moon's surface. Its surface is heavily cratered and lacks significant atmosphere, which contributes to its color.
Color is related to surface temperature, and a "red giant" is cooler than a main sequence, medium-sized star like the Sun.
Color is related to surface temperature, and a "red giant" is cooler than a main sequence, medium-sized star like the Sun.
The radiative zone of the Sun is not visible to the human eye, so it does not have a color. It is located beneath the Sun's visible surface where energy is transported by photons through a process of radiative diffusion.
Because the sun reflects off of the surface of the moon which makes the yellow color. Since the moon is constantly revolving and rotating there are phases.
The star of our sun is classified as a G-type main-sequence star, which gives it a white color. However, when we observe the sun from Earth's surface, the scattering of light in the atmosphere makes it appear yellow.
Sunspots appear dark in color because they are areas on the Sun's surface that are cooler compared to the surrounding areas. This temperature difference causes them to appear darker when observed against the hotter background of the Sun.
The part of the Sun that lies directly above the visible surface is called the photosphere. It is the outermost layer of the Sun that emits light and is the region where most of the Sun's energy is emitted as visible light.
The bright red layer of the sun's surface containing hydrogen gas that can be seen is called the chromosphere. It lies just above the sun's visible surface, the photosphere, and is responsible for the red color seen during solar eclipses.
the surface of the sun is hot