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um it would be (approximately) the same wavelength of the green light in nanometers instead of any other color wavelength it would nanometers.
No the resolution would increase as wavelength of the illuminating light decreases.
Assuming you mean visible light, that would be red light.
The wavelength of ultraviolet light is between 10 and 400 nanometers (nm).From the wavelength you can determine the frequency. If you divide the speed of light by the wavelength, you can calculate the frequency.The frequency range would be from 7.5 x 1014 Hz to 3 x 1016 Hz.
For light they would be gamma rays, or waves with a frequency greater than 1 * 10^20 (10000000000000000000) Hz. And really, as a general rule, the higher the frequency the shorter the wavelength. If you want to calculate the frequency or wavelength you take the speed of light (~3.00*10^8 m/s) and divide it by either the frequency or wavelength, and your answer will be the wavelength (if you used frequency) or the frequency (if you used wavelength).
um it would be (approximately) the same wavelength of the green light in nanometers instead of any other color wavelength it would nanometers.
No the resolution would increase as wavelength of the illuminating light decreases.
That would be the reciprocal of wavelength.( 1 ) divided by (wavelength) .
Assuming you mean visible light, that would be red light.
If a wavelength of light emitted from a particular red diode laser is 651 nm, its wavelength would be equivalent to 0.000000651 meters.
green
The light would be focused with a blue halo.
Ultraviolet has a shorter wavelength than red, green, or infrared light.
If that's 449 millimeters, centimeters, meters, kilometers, inches, yards, or miles,then no, your eyes don't detect it.If you mean an electromagnetic wave with wavelength of 449 nanometers, then youreye would react to that, and would interpret it as the presence of violet-colored light.
-- Red light has the lowest frequency of those three. -- Green light has lower frequency than violet light has. -- The wavelength of all light is inversely proportional to its frequency.
The wavelength of ultraviolet light is between 10 and 400 nanometers (nm).From the wavelength you can determine the frequency. If you divide the speed of light by the wavelength, you can calculate the frequency.The frequency range would be from 7.5 x 1014 Hz to 3 x 1016 Hz.
The high energy narrow wavelength change direction the least. It will be the violet - blue colour light. The red light had the least energy, long wavelength would diffract the most.