That would be gamma, or γ.
The electromagnetic spectrum goes:
Radio waves
Microwaves
Infrared
Visible Light (ROGYBIV)
Ultraviolet
X Ray
Gamma Ray.
The closer to the bottom, the more energy.
Gamma rays
Shortest wavelength corresponds to highest energy, and this region of the EM spectrum contains high energy radiation such as X-rays and gamma rays.The part with the highest frequencies ... the end where the gamma rays are.
It lies in infrared region of electromagnetic spectrum.
I think in the ultraviolet region of the electromagnetic spectrum.
A region of the electromagnetic spectrum that has very short wavelengths and very high energy photons (gamma rays)
the visible light spectrum
Shortest wavelength corresponds to highest energy, and this region of the EM spectrum contains high energy radiation such as X-rays and gamma rays.The part with the highest frequencies ... the end where the gamma rays are.
It lies in infrared region of electromagnetic spectrum.
I think in the ultraviolet region of the electromagnetic spectrum.
A region of the electromagnetic spectrum that has very short wavelengths and very high energy photons (gamma rays)
Visible region.
Infared
it gets higher.
the visible light spectrum
No. The emission and absorption spectrum covers everything from UHF radio to X-rays. (There are no energy level transitions that correspond to the low energy HF or VHF radio bands and below. The lowest-energy transition is the one at 1420 MHz/21 cm.)
Visible light is a very small part of the electromagnetic spectrum. It is characterised by having a wavelength between 4x10-7m and 7x10-7m. The energy carried by a photon is Planck's constant divided by its wavelength.
In the ultra-violet
"Color" is a way of describing how an object interacts with electromagnetic radiation in the visible region of the spectrum. This has no impact whatsoever on how it interacts with electromagnetic radiation in the microwave region of the spectrum. So, no, they don't.