Are We Being Low Dose Microwaved In Our Sleep?
CREDIT GOES TO duckandcanuck47 @ INSTAGRAM
THE OUTPUT OF THE 5G TOWERS ARE CONTROLLED BY OPERATORS 😶
ACCORDING TO COPILOT:
The radiation levels emitted by 5G towers are primarily determined by their design, the frequency bands they use, and the power levels set by regulatory authorities. Here are some key factors:
Factors Influencing Radiation Levels
Frequency Bands: Higher frequency bands (like those used in 5G) can carry more data but may require more power to maintain signal strength over longer distances.
Power Output: The power output of a tower is set to ensure adequate coverage while staying within safety limits. Higher power output can increase radiation levels but is regulated to prevent harmful exposure.
Network Demand: During peak usage times, towers may operate at higher power levels to handle increased data traffic, but still within regulated limits.
Control and Regulation
Regulatory Control: The Federal Communications Commission (FCC) and other regulatory bodies set strict guidelines on the maximum power levels and radiation emissions for 5G towers to ensure public safety.
Operator Control: Network operators can adjust the power levels of towers to optimize coverage and performance, but they must adhere to regulatory limits.
User Control
No Direct User Control: Individual users cannot directly control the power output or radiation levels of 5G towers. These settings are managed by network operators and regulated by authorities to ensure safety and compliance.
CREDIT GOES TO somethings_up_in_pa @ INSTAGRAM
INVISIBLE TO THE EYE BUT IT WILL CHANGE THE ENVIRONMENT
ACCORDING TO COPILOT:
5G technology uses a type of electromagnetic radiation, similar to microwaves. Specifically, part of the 5G spectrum falls within the microwave band1. However, it’s important to note that 5G operates at higher frequencies than previous generations of wireless networks, which allows for faster data transmission.
There are two types of electromagnetic fields (EMFs): ionizing and non-ionizing. 5G, like microwaves, produces non-ionizing radiation, which is generally considered less harmful than ionizing radiation (such as X-rays) because it doesn’t carry enough energy to ionize atoms or molecules.
Microwave radiation, including that from 5G networks, can have various effects on the environment and species within it. Here are some key points:
Effects on Flora (Plants)
Growth and Development: Some studies suggest that prolonged exposure to electromagnetic fields (EMFs) can affect plant growth and development. For example, certain frequencies might influence seed germination and plant metabolism.
Photosynthesis: There is evidence that EMFs can impact photosynthesis, potentially altering the efficiency with which plants convert light into energy.
Effects on Fauna (Animals)
Behavioral Changes: Animals, particularly those that rely on magnetoreception (like birds and bees), can experience disorientation and altered migration patterns due to EMFs.
Reproductive Health: Some studies have indicated potential impacts on reproductive health in mammals, including changes in fertility and developmental issues in offspring.
Cellular and Genetic Effects: There is evidence of cyto- and genotoxic effects, meaning that EMFs can cause cellular damage and genetic mutations in various species.
General Environmental Impact
Ecosystem Balance: The cumulative effects on different species can disrupt ecosystem balance, affecting food chains and biodiversity.
Long-term Exposure: Chronic exposure to low-level EMFs is an area of ongoing research, with some studies suggesting potential long-term impacts on wildlife and plant health.
Radiation poisoning, also known as Acute Radiation Syndrome (ARS), can cause a range of symptoms in both children and adults. The severity and onset of symptoms depend on the dose of radiation received. Here are some common symptoms:
Early Symptoms (Within Hours to Days)
Nausea and Vomiting: These are often the first symptoms and can occur within minutes to hours after exposure.
Headache: A common early symptom that can accompany nausea.
Diarrhea: This can also occur shortly after exposure.
Intermediate Symptoms (Days to Weeks)
Fatigue and Weakness: Persistent tiredness and weakness are common.
Fever: Elevated body temperature can develop as the body responds to the radiation.
Skin Changes: Redness, itching, and swelling can occur, especially if the skin was directly exposed.
Severe Symptoms (Weeks to Months)
Hair Loss: Significant hair loss can occur with higher doses of radiation.
Infections: Due to a weakened immune system, infections can become more frequent and severe. ***
Bleeding and Bruising: Radiation can damage bone marrow, leading to reduced blood cell production and increased bleeding.
Long-term Effects
Cancer: Increased risk of developing cancer later in life. ******
Organ Damage: Long-term exposure can lead to damage to various organs, including the heart and kidneys.
Special Considerations for Children
Children are more sensitive to radiation and may experience more severe symptoms at lower doses. They are also at a higher risk for long-term effects, such as developmental issues and increased cancer risk.
If you suspect radiation exposure, it’s crucial to seek medical attention immediately. Medical professionals can provide treatments to manage symptoms and reduce the risk of long-term effects.