they differ by the length of the wave. And by the object that they hit.
their wavelenghts are different
need to describe in five ways how electronic waves differ each other
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.
u tellme
White light is composed of many individual colors. Each color has its own unique frequency and wavelength. Each of these colors is bent (refracted) at different angles. This effect is known as dispersion.
their wavelenghts are different
It really isn't bad I just cant tell differ colors from each other.
In a spectrometer, each dye will absorb light of certain colors and transmit light of other colors because of the nature of the atoms of the object and the frequency of the light. If the frequency of the light is the same as the frequency that the electrons in the atoms are vibrating, then the light will be absorbed and transferred into vibrational motion.
They differ in wavelength, E =hf=hc/w.
how does the thai musical essemble differ from each other
Things that differ from each other which makes each of them more noticeable (eg. blue & yellow, green & orange, black & white - u get the point) It doesn't just apply to colors.
Seasonal colors differ with each season. For instance, for fall colors will tend to be red and yellow like leaves and spring will have lighter and brighter colors.
due to their structure and function they are differ from each other
Conventionally there are seven colours in white light, but they shade into each other so in fact there are thousands.
colors directly opposite each other in the color spectrum, such as red and green or blue and orange, that when combined in the right proportions, produce white light.
Eukaryotic cells differ from each other due to their structure and function
Like water drops in falling rain, the CD separates white light into all the colors that make it up. The colors you see reflecting from a CD are interference colors, like the shifting colors you see on a soap bubble or an oil slick. You can think of light as as being made up of waves-like the waves in the ocean. When light waves reflect off the ridges on your CD, they overlap and interfere with each other. Sometimes the waves add together, making certain colors brighter, and sometimes they cancel each other, taking certain colors away.