Research Reveals Potential Dangers of Exposure to 5G Cell Phone Radiation in Rural Areas
ABGX – Research Reveals Potential Dangers of Exposure to 5G Cell Phone Radiation in Rural Areas
A groundbreaking study has uncovered that 5G cell phone radiation exposure in rural areas may be significantly higher than in urban settings. According to the research, individuals using mobile devices to upload videos in remote locations experience nearly twice the radiation levels compared to users in cities.
This discovery challenges common assumptions about where the highest radiation levels occur. Contrary to popular belief, the increased exposure does not come from 5G towers. Instead, it results from mobile phones working harder to maintain stable connections in areas with fewer base stations.
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The research was led by scientists at the Swiss Tropical and Public Health Institute (Swiss TPH). They monitored users’ real-time interaction with radiofrequency electromagnetic fields (RF-EMF) across two cities and three rural communities.
RF-EMF plays a vital role in wireless communication. But under certain conditions, it may emit energy levels that raise safety concerns.
Findings showed rural users experienced average upload radiation of 29 mW/m². This number is almost three times higher than the safety threshold recommended by the World Health Organization, which is 10 mW/m².
Meanwhile, users in urban areas like Zurich and Basel recorded lower averages of around 16 mW/m². These results suggest that the radiation experienced in rural zones often surpasses global safety guidelines.
Adriana Fernandes Veludo, lead author and epidemiologist, emphasized that base station scarcity in rural areas leads to higher emissions from phones.
“In low-density areas, phones emit much more radiation,” Veludo told abgx.net. “This results in a situation where everyday phone users in rural zones face higher RF-EMF exposure.”
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The study may even underestimate exposure. During fieldwork, researchers carried devices in backpacks, about 30 centimeters from the sensors. In real-world use, people hold phones much closer to their bodies.
That proximity could increase radiation levels by up to ten times, according to Veludo. The research used special equipment to measure RF-EMF while walking through various environments—homes, schools, parks, and public transport.
The team also tested two additional scenarios. In the first, they activated airplane mode, limiting exposure to only tower-generated radiation. In the second, they triggered heavy downloads to test data reception.
Interestingly, city centers showed higher background radiation in airplane mode. Zurich recorded 0.48 mW/m², Basel 0.33 mW/m², and rural towns just 0.17 mW/m².
During maximum download tests, radiation rose uniformly across locations to about 6–7 mW/m². Researchers attribute this to a 5G technique called “beamforming,” where signals are focused directly at the device receiving data.
This approach improves speed and efficiency but also increases radiation exposure along the beam path. Still, according to ABGX, all measured values were far below international limits.
Even though Europe considers 29 mW/m² a high reading, it is still far below the U.S. limit. The Federal Communications Commission (FCC) allows exposure up to 10,000 mW/m².
Such a large difference in standards raises questions about global consistency in safety evaluations. This is especially relevant as 5G infrastructure rapidly expands worldwide.
Conspiracy theories linking 5G to COVID-19 or mind control have spread widely. However, this study, as reported by abgx.net, focuses only on scientific data and does not support any of those claims.
Instead, it provides a factual look at what users actually experience while using their devices in different settings.
This research, published in Environmental Research, is just the beginning. Veludo confirmed that Project GOLIAT will continue collecting data across nine more European countries over the next three years.
The goal is to better understand long-term exposure patterns and help shape future safety standards based on real-world data.
The expansion of 5G technology brings faster speeds and better connectivity. However, this new study reveals that users in rural areas might unknowingly face higher levels of 5G cell phone radiation.
As research continues, it’s vital to keep monitoring how this powerful technology interacts with the environment—and with the people who rely on it daily.