That would be hard, if not impossible. Lasers work purely by reflection back from an object. Colour information comes from the frequency of light.
Your detection equipment would have to simultaneously detect the laser light and the different frequencies of light.
what frequency device can I use to read colours
It all depends on the frequency of a wavelenght for example red is a low frequency and violet is a high frequency
No. Otherwise, we would have seen new colours when light is reflected, since all the colours have different frequencies.
Yes they do. They come in ordinary colours like blue, red etc, they come in metallic colours such as silver etc and they come in clear as well.
refraction, do this by shining white light (all the colours) through a prism which then splits the wave lengths into sperate paths showing all the colours of white light. So white light has a specific frequency, shine it through a prism and you split the frequency up into smaller bits hence the colours of light.
As far as visible light is concerned violet has highest frequency and shortest wavelength where as red has lowest frequency and so longest wavelength VIBGYOR is the order of colours in the visible spectrum
No, different colors of visible light have different frequency. For example, Violet color has highest frequency in visible spectrum and Red color has lowest.
Ultra sound is just a name for soundwaves of a certain frequency. Doppler is a phenomena where wavelengths change depending on the movement of the object that the wave has bounced off from. By signal processing you can give different colours to objects that move differently wrt the sound source.
According to the range of frequency of emission light has different colours in different frequenies. Violet. Indigo, Blue, green,Yellow, Orange,Red are the main colours of light.
The violet (higher frequency) light.
Each color has a different frequency and wavelength; with red having the longest wavelength and lowest frequency of all the visible colors & violet having the shortest wavelength and highest frequency of the colors humans can see.
Soft proof is the ability to view on-screen what your photograph's colours will look like when printed on a particular printer and even on a particular type of paper