DNA EMF Antenna
Thousands of studies show EMF has negative effects on human health.

There are hundreds and hundreds of studies showing that our wireless wonderland of EMF is not good for our health. But you might ask: Well, HOW? When we say “EMF”, we’re talking about many different types of electromagnetic waves, different frequencies, different power levels, and so on. How could it possibly work? It turns out that the answer may very well be in our DNA! Goodies (affiliate links):
- DNA is a fractal antenna in electromagnetic fields (https://www.researchgate.net/publicat…)
- 3-D Image Shows How DNA Packs Itself into a “Fractal Globule” (https://scitechdaily.com/3-d-image-sh…)
- High Electronic Conductance through Double-Helix DNA Molecules with Fullerene Anchoring Groups (https://pubs.acs.org/doi/10.1021/acs….)
- The Invisible Rainbow: A History of Electricity and Life by Arthur Firstenberg (https://amzn.to/3PZuB0r)
- Genetic Entropy by Dr. John Sanford (https://amzn.to/4cHv0hM)
- TONS of EMF studies: https://www.emf-portal.org/en
More techie tips: https://scottiestech.info
The article from soundQuality.org discusses the hypothesis that DNA may function as a fractal antenna, making it particularly sensitive to electromagnetic fields (EMFs). This sensitivity could potentially explain various health effects associated with EMF exposure.
The concept of DNA acting as a fractal antenna is supported by research suggesting that its structure allows it to interact with EMFs across a range of frequencies. A study titled “DNA is a fractal antenna in electromagnetic fields” explores this idea in detail.
Additionally, the article references numerous studies indicating negative health effects from EMF exposure. For those interested in exploring this further, the EMF-Portal offers a comprehensive database of scientific research on the subject.
These hypotheses and studies suggest a potential link between EMFs and health effects via DNA interaction. Ongoing research continues to explore the complexities of EMF exposure and its potential biological impacts.
