Subject: Re VDT'S ELF AND VLF - ELECTROMAGNETIC FIELDS Date: Mon, 23 Jun 1997 142136 -0500 (CDT) From: Gerrit Teule <gerrit_teule@pi.net> To: Multiple recipients of list <emf-l@mail.llion.org> -------------------------------------------------- Hans Karow wrote: > My comment: > If cellular phone emissions can interfere with other electrical devices, like > shutting off medical devises, causing havoc in planes, ships, etc...how can the > human superconductor withstand above mentioned electromagnetic exposures with their > inductions without causing havoc for a long time? If we are super conductors at > 37 o Celsius, how come our body is not shut off (compared to a short causing the > fuse breaker of the electric panel to shut off), what makes the body still function > quite a relative very long time, until we notice leukemia, brain tumor, etc.? > How can our body protect itself from "shorts" within, because being exposed to an > vast array of electropollution, which should create a relative huge amount of > electricity within our body ? > We call this a miracle? Or someone can explain? > Hans. One possible answer could be the enormous redundancy, that is used in nature and in our body. That means that the information, needed to survive in a poisonous or cancerous environment is carried in billions and billions of cells in our body. Notice that every single cell seems to carry ALL the information. Damage to one cell is almost nothing. It takes thousands and thousands of such damages to get a noticeable phenomenon. Same is true for developing a cancer. A well recognised theory is, that we all carry cancerous cells in our body, but that these cells are continously destroyed by the immune system. Only when the immune system fails, than a group of cancer cells can grow to a noticeable tumor. This redundancy is a miracle indeed. Some people call it a waste (so many seeds for so few plants, etc.), but it seems one of the basics of life. It does not make EMF harmless, but it helps anyway. Does that make sense to you? Archive provided courtesy of WaveGuide, http://www.wave-guide.org Reprinted with permission of Roy Beavers, http://www.feb.se/EMF-L/EMF-L.html