The Science of EMF
To understand the modern world, we must understand the frequencies that power it and how they interact with the electrical nature of our own bodies.
The Science Explained
Watch this comprehensive walkthrough for a deeper look into the research and evidence surrounding environmental EMF. We cover the shift from natural background levels to the digital saturation of the 21st century.
Explore the Spectrum
Interact with the chart below to understand how different frequencies affect our environment and biology.
Extremely Low Frequency (ELF)
COMMON SOURCES
Power lines, electrical appliances, household wiring.
BIOLOGICAL INFLUENCE
Interacts with the body's voltage-gated calcium channels; may affect sleep and cell repair.
Biological Resonance
Our cells communicate via subtle electrical signals. When we introduce powerful, pulsed, man-made frequencies into our environment, they can interfere with these internal whispers.
This isn't just about heat. Modern science is increasingly looking at "non-thermal effects"—how frequencies can change DNA expression, disrupt calcium signaling, and affect the nervous system.
Key Research Areas
- Oxidative Stress: How EMFs may trigger the overproduction of free radicals.
- Voltage-Gated Calcium Channels: The mechanism by which frequencies enter our cells.
- Melatonin Production: Why "blue light" and RF can disrupt deep sleep.
- Blood-Brain Barrier: Studies on how fields may affect brain permeability.