There is no direct evidence on whether there is an association
between electromagnetic radiation produced by wind farms and health outcomes.
Ongoing research suggests a link
between electromagnetic radiation and cellular changes that can lead to cancer.
Spectroscopy: The study of the interaction
between electromagnetic radiation and matter, with absorption or emission of radiant energy.
Not exact matches
T - rays, or terahertz
radiation, lie
between the infrared and microwave swaths of the
electromagnetic spectrum.
The CALLISTO (Compound Astronomical Low - cost Low - frequency Instrument for Spectroscopy in Transportable Observatory) spectrometers, designed and built by electronics engineer Christian Monstein of the Institute for Astronomy of the Swiss Federal Institute of Technology Zurich (ETH Zurich), record the intensity of
electromagnetic radiation at radio frequencies,
between 45 and 870 megahertz.
Moreover, using
electromagnetic radiation to communicate
between these atoms would permit about 5 * 1040 operations per second — 31 orders of magnitude better than my CPU.
These use terahertz rays, which lie
between microwaves and infrared
radiation on the
electromagnetic spectrum.
Scan from the region of visible light towards the longer wavelengths of the
electromagnetic spectrum and you'll find, sandwiched
between microwaves and the infrared, a type of
radiation that we have previously had little time for: terahertz rays, or T - rays.
Visible light captured by optical telescopes, with wavelengths
between 380 and 750 nanometers, makes up only a small fraction of the spectrum of
electromagnetic radiation.
how statistics show a big correlation
between radiation or
electromagnetic frequencies exposure and blood cancers in general
As I explained earlier here, AGWSF has eliminated all differences of property and process
between the wavelengths to deliberately create this confusion
between light and heat, in the meme: «all
electromagnetic radiation is the same and all create heat on being absorbed».
According to this dude, we aren't talking about «size» - as we talking in context of a classification of
electromagnetic radiation, which classifies according to wavelength, and not amplitude [though there is inverse ratio
between them].
The
electromagnetic radiation which is in the wavelengths
between 3000 to 30,000 nm does not much affect upon temperature of Planet Earth.