wat the helllllllll get a life
no u
UV light has a shorter wavelength than infrared.
According to <http:/www.heraeus-noblelight.com/en/uv-disinfection-oxidation/information-for-disinfection-and-oxidation/services-and-events/emission-spectra-of-germicidal-lamps.html> 254nm appears to be the most common. Shorter wavelengths appear to create ozone
No, ultraviolet radiation has shorter wavelengths than violet light. Violet light is at the end of the visible light spectrum with longer wavelengths compared to ultraviolet radiation, which falls just beyond the violet end of the spectrum.
The typical wavelength of ultraviolet (UV) light ranges from 10 nm to 400 nm. UV light is further divided into UVA (315-400 nm), UVB (280-315 nm), and UVC (100-280 nm) based on its specific wavelength range.
Ultraviolet light with a wavelength of around 260 nm causes thymine dimers to form in DNA. Thymine dimers are the result of two adjacent thymine bases on the DNA strand becoming covalently bonded after exposure to UV light.
The wavelength of UV radiation energy is typically shorter than the wavelength of normal sunlight radiation, so you can't see UV
IR waves are longer than UV waves.
To determine UV-absorption you need to use UV-light. And there's a defined wavelength for UV-light.
Infrared has a smaller wavelength than microwaves.
ay gagu
UV rays are high wavelength waves. They are fatal for life on earth.
U.V can be separated according to its energy level and wavelength with UVa having the lowest energy and longest wavelength followed by UVb and ultimately UVc which has the shortest wavelength and highest energy level. You may be familiar with UVa and UVb as the part of the suns rays which cause tanning, aging, and skin cancer. The Sun also emits UVc the most powerful and dangerous type of U.V., fortunately for us most of this is stopped in the upper atmosphere by gasses like ozone.
264 nm.
No dont try it
UV light iddivided in to three. UV-C wave length from 100nm to 280nm. UV-B 280nm to 315nm and UV-A 315nm to 400nm. The wave length of 254nm (UV-C) is giving maximum germicidal activity and it is not too irritating.
A monochromator in UV spectroscopy is used to isolate a specific wavelength (or range of wavelengths) of light from the UV region of the spectrum. This helps in achieving better wavelength selectivity and accuracy in UV spectroscopic measurements by allowing only the desired wavelengths to pass through to the sample.
UV light has a shorter wavelength than infrared.