The body can collect the signal and turn it into electric
currents just like the antenna of a radio set or a cell
phone. These currents are carried by ions (electrically
charged atoms or molecules) flowing through the living
tissues and in the blood vessels (a system of tubes full of
an electrically-conducting salty fluid that connect almost
every part of the body). When these currents impinge on cell
membranes, which are normally electrically charged, they try
to vibrate in time with the current. Pure unmodulated radio
frequency signals change direction far too quickly to cause
serious vibration. Almost as soon as the membrane starts to
move in one direction, it is driven back in the other so it
remains more or less stationary.
However, living cell membranes are able to demodulate these
modulated signals and extract the more dangerous lower
frequencies, which can now cause significant vibration on a
molecular scale. In particular, they drive the negatively
charged molecules of the membrane and the positively charged
ions, which are attached to it, in opposite directions. As a
result, some of these ions are shaken loose. Those with a
double charge, such as calcium ions are lost preferentially
and replaced by others with only one charge, which are less
affected.
But ions with one charge are less able to stabilize the
membrane, which therefore becomes weaker and more inclined
to leak. This in turn can produce all sorts of unwanted
biological effects, ranging from electromagnetic
hypersensitivity (EHS) to a loss of fertility and an
increased risk of getting cancer.
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