Simply put yes. Color is determined by our interpretation of light that is receive in our eyes. Colors can be created in various ways with various combinations of specific wavelengths of light. In addition each color can be represented by an individual wavelength of light. Therefore it is dependent on wavelength.
546nm light wavelength corresponds to a green color.
The color red has the largest wavelength. The color violet, on the other hand, has the shortest wavelength.
The color with the smallest (or as scientist term it, the shortest) wavelength is the color violet, also known as purple.
A wavelength of 540 nm corresponds to the color green in the visible spectrum.
Violet light has a wavelength of 413 nanometers.
Yes.
Different wavelengths of light have different colors.
That would also depend on the speed of the wave. Speed = wavelength x frequency.That would also depend on the speed of the wave. Speed = wavelength x frequency.That would also depend on the speed of the wave. Speed = wavelength x frequency.That would also depend on the speed of the wave. Speed = wavelength x frequency.
the amount of scattering does not depend on wavelength..
546nm light wavelength corresponds to a green color.
The color with the shortest wavelength is purple, sometimes called violet.
The color red has the largest wavelength. The color violet, on the other hand, has the shortest wavelength.
The color with the smallest (or as scientist term it, the shortest) wavelength is the color violet, also known as purple.
The color with the shortest wavelength is violet. It has the highest frequency and energy among the visible colors.
A wavelength of 540 nm corresponds to the color green in the visible spectrum.
Violet light has a wavelength of 413 nanometers.
The specific wavelength of the color pink is typically around 450-500 nanometers.