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Our eyes are specifically designed to detect light. The objects reflecting the light change the property of light, including its intensity and color; this allows us to make conclusions about the objects it was reflected from.Our eyes are specifically designed to detect light. The objects reflecting the light change the property of light, including its intensity and color; this allows us to make conclusions about the objects it was reflected from.Our eyes are specifically designed to detect light. The objects reflecting the light change the property of light, including its intensity and color; this allows us to make conclusions about the objects it was reflected from.Our eyes are specifically designed to detect light. The objects reflecting the light change the property of light, including its intensity and color; this allows us to make conclusions about the objects it was reflected from.
chromatic aberration is due to the change in n, which is a function of the wavelength. different wavelength--> different n--> different refraction-->different angle-->this is spectrograph.
transparent and translucent objects are the objects that let the light pass through them eg glass, but sometimes translucent objects are colorful so they change the color of the light as it passes through them opaque objects can either absorb the light, like dark material, or reflect, like a mirror.
because whatever color you see is the color the object reflects in light.
there are many objects that are brown what patitular object are you looking for its color
Doppler shift
A spectroscope identifies the elements by the color that they give off.
Our eyes are specifically designed to detect light. The objects reflecting the light change the property of light, including its intensity and color; this allows us to make conclusions about the objects it was reflected from.Our eyes are specifically designed to detect light. The objects reflecting the light change the property of light, including its intensity and color; this allows us to make conclusions about the objects it was reflected from.Our eyes are specifically designed to detect light. The objects reflecting the light change the property of light, including its intensity and color; this allows us to make conclusions about the objects it was reflected from.Our eyes are specifically designed to detect light. The objects reflecting the light change the property of light, including its intensity and color; this allows us to make conclusions about the objects it was reflected from.
Spectrograph.
change in color, evaporate, burned out lol vanish
chromatic aberration is due to the change in n, which is a function of the wavelength. different wavelength--> different n--> different refraction-->different angle-->this is spectrograph.
What gives most objects it's natural color
you see coloured objects by the light. light makes the color of the object
No. All hair colors are melanin derived, which is sort of brown colored - NOT on the rainbow. The only change in hair color is more (aging toward maturity) and less (going grey) color.
One use of light spectra has an application in astronomy. When looking at distant objects like galaxies, you can tell if they are moving away from you or closer to you. If the spectral light appears blue (blue-shift) it means that the object is moving toward you, if the spectral light is red (red-shift) it means that the object is moving away from you. Another astronomy application is to look at the light from a star through a spectrum and by doing so you can figure out the chemical composition of the star just by the color of its spectrum.
no they dont but i do know that the color is gray and then fading into white toward its belly.
Yes, though sometimes they change the color of light, or more accurately they allow a certain color to pass through and block other colors.