infrared
Well, first of all, protons don't make light. I think you mean 'photons'. A photon of ultraviolet light carries more energy than a photon of visible light, because it has a higher frequency / shorter wavelength.
UV has higher energy (per photon) than visible light.
A photon's energy is directly proportional to its frequency (inversely proportional to its wavelength).In any given interval of the spectrum, the highest frequency (shortest wavelength) carries the most energy.For visible light, that corresponds to the violet end of the 'rainbow'. The last color your eyes can perceiveat that end is the color with the most energy per photon.
Energy of photon increases.
This phenomenon is called phosphorescence.
no it's infared radition
Well, first of all, protons don't make light. I think you mean 'photons'. A photon of ultraviolet light carries more energy than a photon of visible light, because it has a higher frequency / shorter wavelength.
UV has higher energy (per photon) than visible light.
Ultraviolet light has a greater energy per photon.
Within the range of visible light, it's the light with the shortest wavelength (highest frequency). That's theviolet end of the spectrum. Past that, ultraviolet light, which is invisible, has higher energy.
A photon's energy is directly proportional to its frequency (inversely proportional to its wavelength).In any given interval of the spectrum, the highest frequency (shortest wavelength) carries the most energy.For visible light, that corresponds to the violet end of the 'rainbow'. The last color your eyes can perceiveat that end is the color with the most energy per photon.
Visible light has a higher frequency, a higher energy per photon, and a smaller wavelength, compared to infrared.
Infrared radiation has less energy (per photon) than visible light.
A microwave signal at 50 GHz has waves that are 10,000 times as long as a visible signal at yellow (600 nm) has. Therefore the yellow photon carries 10,000 times as much energy as the 50 GHz photon does.
Energy of photon increases.
This phenomenon is called phosphorescence.
Ultraviolet light has the most energy among visible light, followed by visible light, then infrared light. This is because the energy of a photon is inversely proportional to its wavelength, with shorter wavelengths having higher energy. Ultraviolet light has shorter wavelengths than visible light, making it more energetic.