Different types of electromagnetic waves have different frequencies; different wavelengths; and different energies per photon.
It means the wavelengths are separated. White light, for example, is actually a mixture of different wavelengths.
Different wavelengths of visible light are different colors.
Yes that is true. Different wavelengths means different colors. The amplitude of the wave determines how bright the light is.
Photons of light have different colors because they have different energies resulting in different wavelengths. There is no such thing as white light - it is a mixture of all the various wavelengths - red, blue, green, etc. - and we perceive it as white.
Different types of electromagnetic waves have different frequencies; different wavelengths; and different energies per photon.
It means the wavelengths are separated. White light, for example, is actually a mixture of different wavelengths.
Different wavelengths of visible light are different colors.
I believe that a range of light of different colors and different wavelengths is a spectrum.
Yes that is true. Different wavelengths means different colors. The amplitude of the wave determines how bright the light is.
They are arranged by longest to shortest
Photons of light have different colors because they have different energies resulting in different wavelengths. There is no such thing as white light - it is a mixture of all the various wavelengths - red, blue, green, etc. - and we perceive it as white.
Wavelengths of visible light are measured in nanometres. different colours are at different wavelengths. The range runs from violet at around 380nm to red at around 750nm.
Yes.
No. Different forms of phytochrome absorb different wavelengths of light. Different forms of phytochrome are scattered throughout the plant. This allows the plant to perceive different intensities, wavelengths, and quality of light. Hope that helped!
Yes, light is electromagnetic waves. The longest wavelengths have the lowest frequencies and the lowest temperatures. The shortest wavelengths have the highest frequencies and the highest temperatures.
Yes