If it is between 390 and 700nm (nano meter) then yes.
The range of wavelength in the electromagnetic spectrum that humans can see is called the visible spectrum.
The range of wavelength is 300nm to 700nm approx.
infrared light
Our eyes are adapted to a certain range of wavelengths; infrared and ultraviolet are those waves that are just outside this range.
The most energy rich colors of light are those with the shortest wavelength - violet or blue
The sun produces electromagnetic energy in many different wavelengths including those within the spectrum visible by humans (i.e. visible light). This energy is the result of an intense nuclear fusion reaction in the sun's core.
We know that ultraviolet light, X-rays and gamma rays have wavelengths shorter than visible light.
Those in the range of spectral wavelengths labeled "visible light".
Different wavelengths and frequencies of light are interpreted as different colours; those of sound are interpreted as pitch.
Different wavelengths and frequencies of light are interpreted as different colours; those of sound are interpreted as pitch.
infrared light
carotenoids :]
U suck
Our eyes are adapted to a certain range of wavelengths; infrared and ultraviolet are those waves that are just outside this range.
The sun produces electromagnetic energy in many different wavelengths including those within the spectrum visible by humans (i.e. visible light). This energy is the result of an intense nuclear fusion reaction in the sun's core.
There are only certain wavelengths that can be accepted and absorbed by chlorophyll molecules. The rest are instead reflected - the colors that you can see. Without those wavelengths, you do not have photosynthesis.
No
A filter to let through certain wavelenghts of light. The wavelengths that Hydrogen is most active in. Other light does not get through so objects that "shine" in those wavelengths do not show in the image.
The most energy rich colors of light are those with the shortest wavelength - violet or blue