Frequency is the characteristic of light that gives rise to our experience of color. It is analogous to the relationship of frequency and pitch for sound.
The speed doesn't have any effect on the speed of light.
It does not.
No. The diffraction pattern does depend on the frequency, though.
The wavelength and frequency affect how the way is perceived. In sound it would affect the pitch that you hear, in the visible light spectrum it would affect what color you see. The amplitude would be how easy it is to perceive, it is the intensity (magnitude) of the wave.
Frequency controls the color of the light.
Yellow light has the lower frequency.
Light is absorbed by the molecule.
No. The diffraction pattern does depend on the frequency, though.
The wavelength and frequency affect how the way is perceived. In sound it would affect the pitch that you hear, in the visible light spectrum it would affect what color you see. The amplitude would be how easy it is to perceive, it is the intensity (magnitude) of the wave.
The higher the frequency the more towards the "bluer" end of the spectrum one moves. So violet is higher frequency than green which in turn is greater than red.
Frequency can be found in sound, light, and line current. An example of frequency is, the frequency wave of light will determine what color the light is.
Frequency controls the color of the light.
Yellow light has the lower frequency.
The colour it's painted will affect what frequency of light the box absorbs, painting it purple would mean it reflects the purple light and therefore will have to subside the protons delivered by the light.
Light is absorbed by the molecule.
The frequency of a wave of light is given by speed of light/wavelength, or by energy/Planck's constant.If you know the frequency or the energy associated with the light, it is easily calculated.
Its wavelength (or frequency).
No. The frequency of the entire electromagnetic spectrum varies continuously from low to high frequency. The speed of light remains a constant 186,000 miles per second. That is 300,000 km/sec.
wavelength = c/frequency of light where c is the speed of light.