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Cell Towers In Space: What Cities Will Starlink Irradiate With Potentially Dangerous Microwaves From Space

Keeping a Health Log: Log unexplained changes in health so you can ascertain if experimental satellite microwave radiation exposure could be related to these health changes.

To effectively track potential health impacts from RF radiation exposure, maintaining a detailed health log is crucial. Here’s how you can do it:

  • Daily Tracking: If you are in the targeted location that affects up to 10 million people please note any new symptoms you experience daily between Dec, 10th through June, 7th.  Include the time of day, duration of the symptom, and its intensity.

The FCC in a recent filing approved testing on Dec 10th, 2023 for its direct-to-cellular satellite phone system with T-Mobile and the National Science Foundation ahead of a commercial launch next year with hundreds of cell phones in space.

California:

  • Mountain View, CA:
    • 37.41539, -122.07180
    • 37.39100, -121.48750

Within a 100-mile radius of Mountain View, California, there are numerous cities including Sunnyvale, Los Altos, Palo Alto, and San Jose. The area includes parts of the San Francisco Bay Area, which is densely populated and encompasses a mix of suburban and urban environments. The specific cities listed within a 25-mile radius can be found in greater detail at distantias.com, which provides a comprehensive list including distances and directions from Mountain View​​.

  • San Diego, CA:
    • 33.46000, -117.15000
    • 33.56000, -115.88000

Within a 100-mile radius of San Diego, California, there are several cities and towns, including Oceanside, Escondido, Carlsbad, Chula Vista, and El Cajon. This region is known for its diverse landscapes, ranging from coastal cities to inland urban centers. The area is rich in cultural and recreational activities, given its proximity to the Pacific Ocean and the border with Mexico. For a detailed list of cities within this radius, a resource such as a distance calculator or mapping tool would provide comprehensive information.

  • Los Angeles, CA:
    • 34.04462, -118.25893
    • 34.31502, -118.10536

Within a 100-mile radius of Los Angeles, California, there are numerous cities including Long Beach, Anaheim, Santa Ana, and Irvine. This region, known as the Greater Los Angeles Area, is one of the most populous metropolitan areas in the United States, encompassing a vast network of cities and communities that offer a wide array of cultural, economic, and natural attractions.

Kansas:

  • Kansas City, KS:
    • 38.91540, -94.65727
    • 39.92200, -96.35200

Within a 100-mile radius of Kansas City, Kansas, you will find cities such as Topeka, KS, Lawrence, KS, and St. Joseph, MO. The region straddles the border between Kansas and Missouri, encompassing a diverse landscape that includes urban areas, suburban communities, and rural countryside. As a major metropolitan area, Kansas City serves as a cultural and economic hub for the region.

Washington:

  • Redmond, WA:
    • 47.67530, -122.12833
    • 47.35394, -121.45111
    • 48.05000, -120.10000

Within a 100-mile radius of Redmond, Washington, notable cities include Seattle, Tacoma, and Everett. This area, part of the Puget Sound region, is known for its tech industry, natural beauty, and vibrant urban centers. Redmond itself is often associated with technology, being the home of Microsoft and other tech companies.

Virginia:

  • Reston, VA:
    • 38.95030, -77.37785
    • 38.49230, -79.68790

Within a 100-mile radius of Reston, Virginia, the area encompasses the city of Washington D.C., along with other notable cities such as Arlington, Alexandria, and Frederick. This region is part of the Washington Metropolitan Area and is known for its significant historical sites, government institutions, and diverse communities.

  • Virginia Beach, VA:
    • 36.84400, -75.98169
    • 36.62074, -76.54898

Within a 100-mile radius of Virginia Beach, Virginia, you will find cities such as Norfolk, Chesapeake, and Newport News. This region, known as Hampton Roads or the Tidewater area, is characterized by its large military presence, including naval bases, and a rich historical heritage. It is a coastal area with numerous waterways and natural harbors.

Texas:

  • Dallas, TX:
    • 33.10832, -96.82122

Within a 100-mile radius of Dallas, Texas, major cities include Fort Worth, Arlington, Plano, and Irving. This region is part of the Dallas–Fort Worth Metroplex, one of the largest and most populous metropolitan areas in the United States, known for its diverse economy, cultural richness, and historic significance in the state of Texas.

  • Houston, TX:
    • 29.75328, -95.36233
    • 28.71184, -98.78858

Within a 100-mile radius of Houston, Texas, you will find cities like Galveston, Sugar Land, Beaumont, and Conroe. This region is known for its diverse landscape, encompassing both urban centers and coastal areas along the Gulf of Mexico. Houston itself is a major city with a strong presence in industries such as energy, aeronautics, and healthcare.

Oklahoma:

  • Bethel, OK:
    • 34.35930, -94.81236

Within a 100-mile radius of Bethel, Oklahoma, you will find cities such as McAlester, Ardmore, and Durant. This region is characterized by rural landscapes and small towns, reflecting the quieter, more pastoral side of Oklahoma. It’s an area known for its natural beauty and outdoor recreational opportunities.

Ohio:

  • Columbus, OH:
    • 39.95891, -82.99997
    • 39.65233, -82.02935

Within a 100-mile radius of Columbus, Ohio, you will find cities such as Dayton, Cincinnati, and Mansfield. This region is in the heartland of Ohio, featuring a mix of urban centers and rural areas. Columbus itself is a major city and the state capital, known for its diverse economy and cultural offerings.

Understanding the Data: Connecting the Dots

Analyzing your health log can help you identify patterns or correlations between your symptoms and potential RF radiation exposure. Look for trends or increases in symptoms that align with changes in your environmental exposure between now and the first week of June.

Seeking Professional Advice

If you notice a consistent pattern of symptoms or a deterioration in your health that you suspect may be related to RF radiation exposure, it’s important to consult with a healthcare professional. They can provide a more comprehensive health evaluation and advice on mitigating potential risks.

Community Vigilance: Sharing and Learning

Sharing your experiences and findings with your community can be valuable. It helps in understanding the broader impact of RF radiation on public health and could provide crucial data for further research.

The Uncertain Future of Satellite Networks: Potential for Weaponization?

The advent of Neuro-Strike technology represents a paradigm shift in modern warfare, venturing beyond the realm of physical combat into the battleground of the mind. This sophisticated development in cognitive warfare employs non-kinetic weaponry to potentially manipulate and incapacitate the cognitive functions of adversaries. Amidst the strategic advantages it promises, Neuro-Strike technology also propels us into uncharted territory concerning the nonthermal health effects of non-ionizing RF radiation.

The essence of Neuro-Strike interventions lies in their subtlety. By using non-ionizing RF radiation, these technologies can theoretically interface with the neural substrates of the human brain, potentially leading to nonthermal effects that might alter awareness, influence mood, or disrupt cognitive processes without the need for a physical presence.

The U.S. Military’s RadioBio Initiative serves as a compelling example that challenges the traditional viewpoint which holds that non-ionizing radiation’s only significant effect is thermal (heating).

TheraBionic and RF Radiation Therapy

The FDA-approved TheraBionic device, which uses RF radiation to treat liver cancer, serves as a foundational example of the therapeutic potential of RF frequencies. This treatment employs non-thermal mechanisms, contradicting the traditional view of non-ionizing radiation as biologically inert except for its heating properties. It is from this validated medical use that the theory of space-based RF therapy emerges.  Crazy to think what can happen from space with this microwave technology.  Could beneficial frequencies be found for space-based wireless networks?

 The Double-Edged Sword of Satellite Technology

In the realm of modern technology, satellite networks represent a pinnacle of human ingenuity, offering unprecedented connectivity and data gathering capabilities. However, this advancement comes with its own set of concerns, particularly regarding the potential misuse of this technology. With about 80 satellites constantly servicing a given area, questions arise about the possibilities of these networks being weaponized, especially when considering their ability to form phased arrays that could concentrate power into small, targeted areas.

The Concern: Weaponization of Satellite Arrays

The technology behind satellite networks, particularly those involving microwave radiation, holds immense potential. Yet, this very technology could, theoretically, be adapted for militaristic or coercive purposes. In a phased array system, satellite antennas can work together to focus energy with precision, leading to concerns about the potential for these systems to be used as weapons from space.

The Lack of Guarantees

As of now, there are no concrete guarantees that satellite technology, such as that deployed by companies like SpaceX, won’t be diverted for aggressive purposes. The dual-use nature of these technologies – beneficial for communication and observation but potentially harmful if repurposed – presents a significant ethical and security dilemma.

The Power of Concentrated Energy

The concept of using phased array antennas to concentrate power is not new. This technology, which allows for the directing and focusing of energy beams, can be used for various applications, from telecommunications to radar systems. However, when applied in the context of weaponization, it raises the specter of satellites being used to deliver concentrated energy bursts to specific locations, potentially causing harm.

Regulatory and Ethical Considerations

This potential for misuse underscores the need for stringent international regulations and oversight. The conversation isn’t just about the technological capability but also about the ethical responsibility of nations and corporations controlling these satellites. There is a pressing need for global agreements that specifically address the use and potential weaponization of satellite technology.

The Role of Public Awareness and Advocacy

Public awareness and advocacy play a crucial role in guiding the future of satellite technology. By staying informed and voicing concerns, the public can influence policymakers and corporations to prioritize ethical considerations and prevent the misuse of these powerful tools.

Conclusion: Navigating the Future with Caution

The advancement of satellite technology, particularly the use of phased arrays in microwave radiation-based systems, brings us to a crossroads. As we benefit from the connectivity and opportunities these technologies provide, we must also be vigilant about their potential misuse. Ensuring a future where satellite technology remains a tool for progress and not a weapon from above requires a collective effort in regulation, ethical decision-making, and public engagement.