low frequency radio
high frequency radio including microwave
heat
here --> . . . . . infrared . . . . .
red light
orange light
yellow light
green light
blue light
violet light
ultraviolet radiation
X-rays
gamma rays
cosmic rays
It is the lowest frequency, lowest energy, and longest wavelength. It would be located on one of the edges, with the other edge being gamma rays.
It goes like this: Radio waves, Infrared waves, Visible light, Ultraviolet light, X-rays, and gamma rays, in ascending frequency, ascending energy, and decreasing wavelength. There actually is no edge, there in theory could be that radio wave A has more energy than radio wave B, which has more radio wave C, and so on and so on for an infinite amount of waves. Those waves would be emitted from a part of big star's gas being sucked into a black hole. Same goes for gamma rays.
low frequency radio
high frequency radio including microwave
heat
here --> . . . . . infrared . . . . .
red light
orange light
yellow light
green light
blue light
violet light
ultraviolet radiation
X-rays
gamma rays
cosmic rays
"This type" is not specified in the question, so no answer is possible. We can't even
mention limits, because the electromagnetic spectrum has no ends in either direction.
They're furthest to the right, where the energy's the highest.
Radio waves are the longest waves in the electromagnetic spectrum; the lowest frequencies.
Higher frequency than radio and microwaves,
lower frequency than light and all the others.
south
Immediately adjacent to the band of visible light, on the end with highest frequency / shortest wavelength.
The term "electromagnetic" is the wrong term. The correct term is "photoelectric". Aslo the phrase between the infrared and ultraviolet should be stated: between the thresholds of infrared and ultra-violet light. So the correct question would be: What is the region of the photoelectric spectrum that lies between the thresholds of infrared and ultra-violet light? Answer: The visible light spectrum
The only property that a ray or wave needs to have in order to be located within the electromagnetic spectrum is that it must be an electromagnetic wave. Gamma rays meet that requirement nicely.
It's really quite simple actually... They lie right between the electro-convulsive synapse, and the photo-ludacritic cleft. It's a very delicate balance, even the slightest amount of refractive shift micteration and the whole spectratic waveform becomes unrecognizable to even the swiftest of retinal sphincters.
all of the em spectrum is measured i waves
Cosmic rays are not part of the EM spectrum -- they are high energy charged particles.
Immediately adjacent to the band of visible light, on the end with highest frequency / shortest wavelength.
"Light" is a very narrow band of radiation in the electromagnetic spectrum - approximately 400 nanometers (nm) to 700 nm. It is located between ultraviolet and infrared radiation and is special because we have evolved the capability to see this radiation as the light that we know and all of its colors.
The term "electromagnetic" is the wrong term. The correct term is "photoelectric". Aslo the phrase between the infrared and ultraviolet should be stated: between the thresholds of infrared and ultra-violet light. So the correct question would be: What is the region of the photoelectric spectrum that lies between the thresholds of infrared and ultra-violet light? Answer: The visible light spectrum
The question is a lot like asking "What is the frequency of hearing ?", or "How fast is speed ?", or "How much does money cost ?". "Night vision" is the sensitivity of the human eye to extremely low light conditions, or the use of optical and electronic devices to render an invisible scene in visible wavelengths. It's not a type of radiation that can be located on the electromagnetic spectrum.
Ultraviolet rays have more energy and a higher frequency, while an Infrared ray is essentially heat, which has less radiation, and a longer wavelength. Also, they are located lower of the Electromagnetic Spectrum.
The only property that a ray or wave needs to have in order to be located within the electromagnetic spectrum is that it must be an electromagnetic wave. Gamma rays meet that requirement nicely.
It's really quite simple actually... They lie right between the electro-convulsive synapse, and the photo-ludacritic cleft. It's a very delicate balance, even the slightest amount of refractive shift micteration and the whole spectratic waveform becomes unrecognizable to even the swiftest of retinal sphincters.
That means that both the frequency and the wavelength of microwaves are also between those of infrared and radio waves.
A rainbow shows the optical (visible) part of the electromagnetic spectrum; infrared (if you could see it) would be located just beyond the red side of the rainbow with ultraviolet appearing just beyond the violet end. The way to rembember the colors of the rainbow are Roy G Biv, meaning Red, orange, yellow, green, blue, indigo, and violet.
all of the em spectrum is measured i waves
to the far right And since your reading this, have you ever watch that episode of Regular show where Mordecai and Rigby enter a rap battle with the people from Loiter Squad? I like that one. :D