The UV region is called "ultraviolet" because it has shorter wavelengths and higher frequencies than visible light, which is perceived as violet in the spectrum. "Ultra" means beyond, so ultraviolet implies light that is beyond violet in terms of wavelength and frequency.
I think in the ultraviolet region of the electromagnetic spectrum.
230 nm of light lies in the ultraviolet region of the electromagnetic spectrum.
I'll say the second one is. (The one on the right.)
A 30 nanometer electromagnetic wave would fall within the ultraviolet region of the electromagnetic spectrum. Its short wavelength indicates high frequency and energy, making it potentially harmful to living organisms in large doses.
The lines of the Lyman series are observed in the ultraviolet region of the electromagnetic spectrum. These lines correspond to transitions of an electron in a hydrogen atom from higher energy levels to the n=1 energy level.
I think in the ultraviolet region of the electromagnetic spectrum.
230 nm of light lies in the ultraviolet region of the electromagnetic spectrum.
As you increase frequency past violet light, to the region where the eye no longer perceives it, you're in the "ultraviolet" region.
I'll say the second one is. (The one on the right.)
The visible light spectrum is the only part of the spectrum that we can perceive with our eyes. It is commonly considered to be the 400nm -700 nm region. It lies between ultraviolet and Infrared region of the light spectrum.
A 30 nanometer electromagnetic wave would fall within the ultraviolet region of the electromagnetic spectrum. Its short wavelength indicates high frequency and energy, making it potentially harmful to living organisms in large doses.
The lines of the Lyman series are observed in the ultraviolet region of the electromagnetic spectrum. These lines correspond to transitions of an electron in a hydrogen atom from higher energy levels to the n=1 energy level.
The series of lines in an emission spectrum caused by electrons falling from energy level 2 or higher (n=2 or more) back down to energy level 1 (n=1) is called the Lyman series. These emission lines are in the ultra-violet region of the spectrum.
The area behind the color violet in the visible light spectrum is called ultraviolet (UV) light. This region of the spectrum has shorter wavelengths and higher energy levels than visible light. UV light is not visible to the human eye but is present in sunlight and is commonly associated with causes of skin damage and sunburn.
When an electron drops from level 5 to level 1, a photon is emitted in the ultraviolet region of the electromagnetic spectrum. The energy released corresponds to the energy difference between the two electron levels, which is characteristic of ultraviolet light.
The nitrogen spectrum consists of lines that are mainly in the ultraviolet region of the electromagnetic spectrum. These lines are produced when nitrogen atoms are excited and emit light. The spectrum is characterized by distinct lines at specific wavelengths, which can be used to identify nitrogen in various substances.
The absorption spectrum of boron typically shows strong absorption in the ultraviolet region, with some absorption in the visible spectrum as well. Boron's absorption spectrum is characterized by a series of sharp peaks due to transitions between energy levels in its atomic structure.