Date: December 1, 2023Author: Editor, cairnsnews 1 Comment
Heat Islands in cities caused by 5G grids raise the ambit of temperatures
Serious critical infrastructure risks have been ignored in the unregulated rush to deploy the 5G network. Industry and government regulators across the world have ignored a number of serious scientifically established risks arising from the mass densification of 5G, Internet of Things (IOT) and SMART aircraft, electrical grid Internet communications, city antenna systems, which require billions of large spectrum quadrature amplitude modulated (QAM) microwave radiation transmitters.
Canada’s cellular network in 2018 was supported by approximately 33,000 large towers of up to 200 feet in height. The new 5G protocol will require many more, higher radiation beam wave emissions using precisely located towers across Canada’s towns and cities – an estimated 273,000 – at a much shorter height with significantly larger energy demands on the electric grid and network.
The propaganda narrative of industry and agencies claiming these 5G networks use less energy is demonstrably false. The massive increase in antennas from massive multiple-in multiple-out (MIMO) antennas for 5G, plus the mini and micro relay networks, as well as increased device data usage all require further power consumption in watts. The continual, not-on-demand, scanning radar designed to pick out the target area is continually in operation, with the added overlaying of multiples of higher energy focused beam waves, created by the out-of-phase emission antennas. These focused high energy beam waves, operating across a larger part of the spectrum, use higher energy photon values in the compressed millimetre wave spectrum to deliver high power data compression beams across urban areas and is the reason the aviation industry are very concerned at the risks posed to their communication systems critical to keeping aircraft safe in the air.
The planned and currently deployed 5G mass antenna installations all add to an ever-increasing requirement for more energy to produce the increased data transfer through radiation emissions across cities and towns. Microwave radiation emissions are known to increase thermal temperatures, contributing to the climate change challenges and life-threatening effects of raising temperatures in cities. Heat island impacts are defined as large urban areas that are affected by increases in city temperatures that have been recognized by the Environmental Protection Agency (EPA) as causing detrimental health impacts and increases in energy consumption.
Energy consumption in heat islands increases demand for air conditioning to cool buildings. In an assessment of case studies spanning locations in several countries, electricity demand for air conditioning increased approximately 1–9% for each 2°F increase in temperature. Countries where most buildings have air conditioning, such as the United States, had the highest increase in electricity demand. Heat islands contribute to higher daytime temperatures, reduced night-time cooling, and higher air-pollution levels. These, in turn, contribute to heat-related deaths and heat-related illnesses such as general discomfort, respiratory difficulties, heat cramps, heat exhaustion, and non-fatal heat stroke.
Microwave radiation will also affect a large number of molecular structures in materials, which increases building fire risk. This is due to hydrocarbon elements in buildings breaking down due to modulated microwave radiation, which causes localized heating and the breakdown of materials. Microwave radiation at certain frequencies will excite water molecules and if there is no moisture available, other less volatile molecules will absorb the radiation and start to heat. Therefore, any material that has dried out can overheat and ignite more easily in a microwave field, a type of priming. The risks particular to the 5G radiation emissions are due to the proposed mass densification and spectrum dominance of the radiation emissions. Also, any metal objects inside a microwave field can exhibit dielectric properties that can cause sparking, which could lead to a fire; this is caused by a build-up of charged particles, energy that produces a concentrated electric field at the edge of the metal.
These are all scientific phenomena that have been ignored by the regulators and industry, but the most alarming, unrecognized and unregulated issue is fatigue of materials caused by the continual bombardment of 5G data compression and focused (QAM) modulated microwave energy fields. 5G requires far more complex and focused data package compression of energy. The potential for specific frequency causing the disassociation of molecular structures of solid building materials, priceless artworks, and wine collections, among other things, cannot be overstated due to the currently un-researched cross-wave impacts of such high levels of energy-in-air modulated radiation emissions. This cacophony of microwave radiation pollution could lead to severe failures in larger capital equipment, including the electrical grid. Current critical infrastructure was never assessed or engineered with this pulse-vibration, energy-in-air value added to the materials’ fatigue calculation and ultimate life expectancy of the established infrastructure, including the power grid.
What has also been discovered is unnecessary latent power capacitance built into the 5G SMART IOT hardware network. This large capacitance could easily be used for a possible Electro Magnetic Pulse (EMP) attack on cities and populations
This would depend on the known interconnectivity and remote access of an easily hackable network to all emission devices in the built up radiation 5G grid.
5G operating systems have already been compromised and could pose a significant security risk, as EMPs can cause a major disruption to electromagnetic communication systems, the electrical grid and electronics hardware; EMP emissions usually come from sources including the Sun and a number of developed weapons.
The electromagnetic pulse wave from nuclear bomb testing was shown to cause large electrical grid disturbances at great distances. Something similar happened when 5G was switched on in South Korea in April 2019: it caused a number of city fires due to the documented failure of the electrical grid transformers. The South Korean government and media passed this off as having been caused by forest fires in five separate cities simultaneously all across the country when 5G was turned on, but this alleged cause does not explain the electrical grid disturbance and destruction of critical electrical grid hardware. EMP risks identified in the USA demonstrate that this type of poorly regulated 5G technology poses a potential risk throughout the world. – contributed
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