The Sun emits radiation across almost the entire electromagnetic spectrum.
The sun's color results from the temperature of its outer layer, which emits light in the yellow part of the visible spectrum. Hotter stars tend to emit more light in the blue part of the spectrum while cooler stars are more reddish.
Visible light is a portion of the electromagnetic radiation that is visible to the human eye. Stars Emit their own light. visible Light has a Wavelength of around 80 or 400 nm to about 760 or 780 nm
Sun and stars .
some of the light from the corona produces a continuous spectrum that lacks absorption lines. however the type is absorption spectrum
the causes
an emicion spectrum
The sun's color results from the temperature of its outer layer, which emits light in the yellow part of the visible spectrum. Hotter stars tend to emit more light in the blue part of the spectrum while cooler stars are more reddish.
Moonlight is almost entirely reflected sunlight, with very small amounts of reflected starlight and earthlight as well. As such, it radiates at the same continuous spectrum as the sun, though it won't have the bright emission lines that the sun emits.
the sun only emit light. not the moon. it will reflect the light of the sun.
The sun's radiation comes as 45 percent visible light. 40 percent infared, and the remainder as Ultraviolet. This is why the Sun is damaging to our eyes as well as skin while giving us the light we need.
Red at one end, purple at the other.
The sun gives off a large section of the electromagnetic spectrum, so you could say it is many waves all piled together
No. Planets do not emit light; they can only reflect light from the Sun.
Visible light is a portion of the electromagnetic radiation that is visible to the human eye. Stars Emit their own light. visible Light has a Wavelength of around 80 or 400 nm to about 760 or 780 nm
No. The sun gives off a full continuous spectrum.
true
Yes.