UV photons have more energy (less wavelength, higher frequency) than visible light photons. It is possible to convert photons to ones with less enery, but not the opposite.
UV has higher energy (per photon) than visible light.
UV has a HIGHER frequency than visible light. If you get such results, either you are not measuring the correct light, or something else is wrong with the measurement.
Just beyond the limits of visible light are ultraviolet (UV) and infrared (IR) light.
Infrared has a smaller wavelength than microwaves.
Well, seeing as it seperates visible light, it follows that it only seperates that visible light into the visible spectrum. You can't make radiowaves or UV rays out of visible light.
UV has higher energy (per photon) than visible light.
they don't convert UV into food, but they can convert visible light into food through photosynthesis. UV can be damaging to the plant and is one of the reasons they have a waxy cuticle covering the leaves
UV light is invisible to the human eye, which is why it is sometimes referred to as 'black light'. However, some materials (e.g. DayGlo) can absorb UV energy and convert it into visible light energy. They are said to be fluorescent.
No, the visible light region is between Infra-red and UV.
Colour only applies to visible light. UV rays are not visible.
UV has a HIGHER frequency than visible light. If you get such results, either you are not measuring the correct light, or something else is wrong with the measurement.
The only difference, between ultra violate light and visible light, is their frequencies, UV has higher frequency than visible and since wavelength x frequency = the speed of light (which is constant at 3x108 ms-1), therefore wavelength is higher in UV. UV light is also not visible, unlike visible light! so, in summery the difference is frequency and wave length.
UV (ultra violet) light
Just beyond the limits of visible light are ultraviolet (UV) and infrared (IR) light.
Infrared has a smaller wavelength than microwaves.
speed
fingerprints are made of organic compounds that absorb UV light and then emit visible light.