5G

Source: Global Research

Wireless Radiation: Stop the 5G Network on Earth and in Space, Devastating Impacts on Health and the Environment

International Appeal: There are 26,740 signatories as of December 4, 2018

By Arthur Firstenberg • Global Research, January 09, 2019 • The Appeal

To the UN, WHO, EU, Council of Europe and governments of all nations

We the undersigned scientists, doctors, environmental organizations and citizens from (__) countries, urgently call for a halt to the deployment of the 5G (fifth generation) wireless network, including 5G from space satellites. 5G will massively increase exposure to radio frequency (RF) radiation on top of the 2G, 3G and 4G networks for telecommunications already in place. RF radiation has been proven harmful for humans and the environment. The deployment of 5G constitutes an experiment on humanity and the environment that is defined as a crime under international law.

Executive summary

Telecommunications companies worldwide, with the support of governments, are poised within the next two years to roll out the fifth-generation wireless network (5G). This is set to deliver what is acknowledged to be unprecedented societal change on a global scale. We will have “smart” homes, “smart” businesses, “smart” highways, “smart” cities and self-driving cars. Virtually everything we own and buy, from refrigerators and washing machines to milk cartons, hairbrushes and infants’ diapers, will contain antennas and microchips and will be connected wirelessly to the Internet. Every person on Earth will have instant access to super-high-speed, low- latency wireless communications from any point on the planet, even in rainforests, mid-ocean and the Antarctic.

What is not widely acknowledged is that this will also result in unprecedented environmental change on a global scale. The planned density of radio frequency transmitters is impossible to envisage. In addition to millions of new 5G base stations on Earth and 20,000 new satellites in space, 200 billion transmitting objects, according to estimates, will be part of the Internet of Things by 2020, and one trillion objects a few years later. Commercial 5G at lower frequencies and slower speeds was deployed in Qatar, Finland and Estonia in mid-2018. The rollout of 5G at extremely high (millimetre wave) frequencies is planned to begin at the end of 2018.

Despite widespread denial, the evidence that radio frequency (RF) radiation is harmful to life is already overwhelming. The accumulated clinical evidence of sick and injured human beings, experimental evidence of damage to DNA, cells and organ systems in a wide variety of plants and animals, and epidemiological evidence that the major diseases of modern civilization—cancer, heart disease and diabetes—are in large part caused by electromagnetic pollution, forms a literature base of well over 10,000 peer-reviewed studies.

If the telecommunications industry’s plans for 5G come to fruition, no person, no animal, no bird, no insect and no plant on Earth will be able to avoid exposure, 24 hours a day, 365 days a year, to levels of RF radiation that are tens to hundreds of times greater than what exists today, without any possibility of escape anywhere on the planet. These 5G plans threaten to provoke serious, irreversible effects on humans and permanent damage to all of the Earth’s ecosystems.

Immediate measures must be taken to protect humanity and the environment, in accordance with ethical imperatives and international agreements.

5G will result in a massive increase in inescapable, involuntary exposure to wireless radiation

Ground-based 5G

In order to transmit the enormous amounts of data required for the Internet of Things (IoT), 5G technology, when fully deployed, will use millimetre waves, which are poorly transmitted through solid material. This will require every carrier to install base stations every 100 metres[1] in every urban area in the world. Unlike previous generations of wireless technology, in which a single antenna broadcasts over a wide area, 5G base stations and 5G devices will have multiple antennas arranged in “phased arrays” [2],[3] that work together to emit focused, steerable, laser-like beams that track each other.

Each 5G phone will contain dozens of tiny antennas, all working together to track and aim a narrowly focused beam at the nearest cell tower. The US Federal Communications Commission (FCC) has adopted rules [4]permitting the effective power of those beams to be as much as 20 watts, ten times more powerful than the levels permitted for current phones.

Each 5G base station will contain hundreds or thousands of antennas aiming multiple laser-like beams simultaneously at all cell phones and user devices in its service area. This technology is called “multiple input multiple output” or MIMO. FCC rules permit the effective radiated power of a 5G base station’s beams to be as much as 30,000 watts per 100 MHz of spectrum,[2] or equivalently 300,000 watts per GHz of spectrum, tens to hundreds of times more powerful than the levels permitted for current base stations.

Space-based 5G

At least five companies[5] are proposing to provide 5G from space from a combined 20,000 satellites in low- and medium-Earth orbit that will blanket the Earth with powerful, focused, steerable beams. Each satellite will emit millimetre waves with an effective radiated power of up to 5 million watts[6] from thousands of antennas arranged in a phased array. Although the energy reaching the ground from satellites will be less than that from ground-based antennas, it will irradiate areas of the Earth not reached by other transmitters and will be additional to ground-based 5G transmissions from billions of IoT objects. Even more importantly, the satellites will be located in the Earth’s magnetosphere, which exerts a significant influence over the electrical properties of the atmosphere. The alteration of the Earth’s electromagnetic environment may be an even greater threat to life than the radiation from ground-based antennas (see below).

Please go to Global Research to read the entire article.

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Source: Health Impact News

20,000 Satellites for 5G to be Launched Sending Focused Beams of Intense Microwave Radiation Over Entire Earth

by John P. Thomas • Health Impact News • January 11, 2018

Public attention about 5G has been focused on the plans of telecom companies to install millions of small cell towers on electric utility poles, on public buildings and schools, on bus stop shelters, in public parks, and anywhere they want in national parks and on federally owned land.

In local urban communities there would be a cell tower approximately every 500 feet along every street.

As bad as these small cell towers might seem from the standpoint of constant exposure to radio frequency (RF) radiation in close proximity to the source, perhaps an even more alarming prospect will be the beaming of millimeter length microwaves at the earth from thousands of new communication satellites.

The FCC gave approval to SpaceX on March 29, 2018, to launch 4,425 satellites into low orbit around the Earth. [1]

The total number of satellites that is expected to be put into low and high orbit by several companies will be 20,000 satellites. [1]

5G will use Phased Array Antennas to shoot Beams of Radiation at Cell Phones

These satellites will use the same type of phased array antennas as will be used by the ground-based 5G systems.

This means that they will send tightly focused beams of intense microwave radiation at each specific 5G device that is on the Earth and each device will send a beam of radiation back to the satellite. [2]

Previous generations of RF cellular communication used large antennas to send a blanket of radiation in all directions. The lower frequencies they used and the broad distribution of microwaves limited the numbers of cellular devices that could connect through an individual tall tower.

The much shorter length microwaves used for 5G will make it possible to use small phased array antennas to send and receive signals. 

Phased array antennas consist of clusters of hundreds of tiny antennas that work together to shoot a ray of energy at a target just like a bullet. A cluster of these tiny antennas can be arranged in a 4 inch by 4 inch matrix.

The rays of microwaves they produce will be strong enough to pass through walls and human bodies. If they were not strong enough to do this, then everyone with a 5G smartphone would have to stand outside when using the devices. [2]

Each 5G product will also have multiple phased array antennas which will be used to create a powerful beam of radiation back to the 5G devices mounted on electrical utility poles or toward a specific satellite in space.

These beams of radiation will also need to be strong enough to pass through walls and human flesh such as a hand or head to reach the intended destination. [2]

This means that if you are in a crowded location, such as an airport or on a train, there will be hundreds if not thousands of invisible beams of radiation flying through the environment at the speed of light.

As people move in that environment, their bodies will be penetrated by numerous beams of radiation as they walk or as other people walk around them with their 5G smartphones. [2] 

5G Phones will be much more Powerful than Previous Phones

The effective radiated power of the 5G phased array antennas in phones will be 10 times more powerful than 4G phones.

No one will be free from exposure.

In addition, 5G beams of microwave radiation will be received and transmitted from new computer equipment, household appliances, and automobiles.

Stationary equipment such as Wi-Fi hubs in homes and offices will be permitted to use microwave beams that are 15 times stronger (300 watts) than the signals from 5G phones or 150 times stronger than 4G phones. [2] 

Please go to Health Impact News to read the entire article.

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Source: http://82.221.129.208/.xt5.html

January 12-13, 2018

5G satellite launch

20, 000 satellites are soon to be launched for 5g. The tech being used defies common sense. I did not realize up to this point that the antennas, even in the 5G devices, are going to be able to focus their beams the same way Haarp does. Let me explain how a radio beam is focused, using AM radio as an example.

Let’s say your broadcast audience is in a narrow corridor (such as a valley in a mountain range). It will make no sense to send your radio signal where it won’t be heard (back in the mountains, where only a few hikers are) so in such situations, multiple antennas are used. The tallest antenna will transmit the signal. Then passive antennas, spaced at precise intervals away from the active antenna, will cause the signal to be diverted in their direction. The more antennas in a row there are, the more focused the radio beam will be. The picture below shows an antenna array that will make an AM broadcast directional by 6DB (which will quadruple the effective broadcast power to a preferred zone) these antennas are for 1.52 MHZ so they are shorter than most AM radio antennas.

AM frequencies are very low compared to 5G, and antenna size is a function of the speed of light vs the frequency that will be transmitted at. To do a full wave antenna for an AM signal at 1 MHZ would therefore require an antenna that is 5, 280 x 186, 000 / 1, 000, 000 feet long. That equals 982 feet tall. There is an effect that allows AM antennas to work efficiently at around 62.5 percent of full wave length, so for 1 MHZ the antenna actually only needs to be a little over 600 feet tall. We have all seen such antennas, they are common. That was a very short explanation, there is more to this than that, but it will suffice to explain how the illustration above can be implemented in a much smaller space, only the size of a cell phone

AM radio, which ends at 1.7 mhz, requires very large antennas because the frequencies are so low. And low frequencies of the type AM used were not dangerous to people. But let’s say your transmitted frequency is 1 GHZ. That would require an antenna only about 8 inches long. 5G, which operates at frequencies up to 80 times as high as that, requires antennas that are only about 1./10th of an inch long and the entire frequency range is potentially dangerous. You can put lots of those little antennas in a cell phone, arranged like the AM radio illustration above, and therefore cause the 5G beam to become very focused, giving it the power it needs to punch through solid objects (which high frequencies absolutely hate to go through).

PROBLEM: What if the satellite or tower is on the opposite side of your brain, and your cell phone decides to shoot a super focused beam through your brain to reach the tower? It cannot know where your brain is, or someone else’s brain next to you. THIS IS A ROCK STUPID TOTALLY NEGLIGENT SYSTEM. I WILL NOT USE IT, THIS IS RETARDED BRAIN DAMAGE TYPE TERRITORY, IT CANNOT EVER BE DONE EVEN AT FRACTIONAL WATTAGE.

AS IF I want a phase array antenna pushed up to my head, shooting out a high intensity pencil beam! Oh, you won’t notice the slowly creeping damage as your brain constantly re-assigns new neurons to complete the tasks that were done by the million or so that got wrecked from an hour long phone call. Those calls will only be sent directly through your brain for 50 percent of all calls anyway because sometimes the tower or satellite is favorably placed so don’t sweat it. You’ve got trillions of neurons to waste, your brain “only uses 10 percent of them anyway” RIGHT?

If the current batch of cell phones (which won’t kill neurons outright because they don’t shoot a pencil beam) were a problem because they caused cancer, JUST WAIT until 5G takes off. That tech is NOT FOR ME, 3g is working JUST FINE and I worry about even that!.

5g is the type of system that goes in when the people making the decisions don’t give a damn about you. They’d rather have their back scatter radiation scanners sending back high res images of the inside of your home so they can big brother you real good. That’s the real reason why 5g is being implemented, BET ON IT and if you don’t think they want you brain damaged, VACCINATE YOUR KIDS, AND GET YOUR DAMN FLU SHOT. By the way, NO ONE at the golden globes actually accepted the flu shot, it was all a ruse. They know what the hell is going on. If you think the people pushing 5g want to improve your life, think again, they are the EXACT same people pushing the tainted vaccines. Brain damage may well be one of the “positive outcomes” of 5g that they are seeking, especially with them having the audacity to use pencil beams for it to work. Pencil beams are considered potentially dangerous, they are the radio form of a laser. You don’t have that in a device ANYONE would use if you care about whoever is using it.

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Ed note: Qualcomm’s co-founder was Irwin M. Jacobs and is a chairman emeritus of the giant company with operations in Israel. Jacobs who is Jewish and born in New Bedford, Massachusetts, said that “Israel was one of the company’s go-to places for advanced technology”. Why would Jacobs say this when Silicon Valley is located just up the street from Qualcomm in America? That’s probably because the technology coming out of Silicon Valley is heading to Israel. Jacobs stated on one of his numerous trips to Israel that, “Israel is an important part of Qualcomm”.

Through Qualcomm’s venture fund, this firm has invested in numerous high tech startup firms in Israel. Both Qualcomm Ventures and Microsoft Ventures have invested in Israel’s Team8 while Microsoft depends on Israel for R&D. Team8 is a cybersecurity think tank and creates companies that deal with cybersecurity threats. Team8 was founded by veterans of the Israeli IDF Intelligence & Technology Unit 8200. Concerning the arrest of Huawei’s executive in Canada last year, the intensifying competition between Huawei and Qualcomm cannot be simply dismissed.

Microsoft, Qualcomm invest in Israel’s Team8 cyber-effort

Qualcomm to buy Israeli chip maker for $300 million

Team8 announces $85 million fund to build 8 cybersecurity startups

Qualcomm Leads Industrial IoT Push With Numerous Chip Sets, 5G

Huawei vs Qualcomm in 5G: Sino-US power competition and cooperation

In the following Millennium Report, it is being reported the 5G “revolution” and related technology is being designed in Israel led by Qualcomm developing chips, and the first generation of 5G. Also included in the development of 5G, is the Internet of Things (IoT). Team8 involved in much of this technology has made 60 predictions for 2019. Considering the amounts of money that are involved in the growth of 5G technology, it is unlikely the industry will be slowed down despite the risks associated with 5G technology outlined above. Currently, the wireless industry supports over 4.7 million jobs and is reported as contributing roughly $475 billion annually just to the American economy. Qualcomm is leading the 5G revolution and much of the technology was developed in the US then moved to Israel as Qualcomm claims to be the “foundation to 5G technology.”

5G mobile revolution designed in Israel

Qualcomm Israel’s Assaf Touboul and Ronen Sheashua tell “Globes” about the unheard-of download speeds and greener networks coming soon.

Qualcomm takes a lead to make 5G a reality by 2019

5G is the foundation to what’s next. We are the foundation to 5G.

While on the subject of 5G technology being developed out of Israel, the following linked information reveals some rather interesting related information about Israel. According to this linked source, “not only is Israel ‘lagging behind’ on internet speeds (it appears they are still using 3G based on the speeds reported in the article below), they are also still running copper wiring into the homes of the Israeli people providing them with the most protective wiring from non-ionizing radiation frequencies”. Readers are invited to visit this source to begin coming to your own conclusions about 5G technology.

Well Whaddya Know! No 5G For Israel!

Israel and India to Develop 5G Technology Together

Source: The Verge

Competitors say Qualcomm is running a monopoly — here’s why

‘No license — no chips’

By Adi Robertson@thedextriarchy • Jan 9, 2019

Illustration by Alex Castro / The Verge

Qualcomm helped create the smartphone as we know it. Its patents are part of the standard for modern wireless broadband systems, and the company is now the world’s largest producer of baseband processors — the modem chip that lets phones connect to data networks. But over the next few weeks, a judge will determine whether Qualcomm abused that power, hearing a complaint brought by the Federal Trade Commission in 2017.

The Qualcomm trial started on January 4th, and it will run through January 28th. After that, Judge Lucy Koh — the California district judge who presided over Apple and Samsung’s massive patent infringement trial — will have to decide whether Qualcomm unfairly monopolized the baseband processor market. Here’s why the case matters to Qualcomm, the FTC, and everyone who owns a phone.

Why is the FTC suing Qualcomm?

The FTC claims Qualcomm has engaged in monopolistic practices that lock out potential competitors and make phones more expensive for consumers. The complaint includes a few different, but related, accusations:

  • Qualcomm won’t sell baseband processors to phone makers unless they agree to “disproportionately high” patent royalties, a policy referred to as “no license — no chips.”
  • Qualcomm unfairly refuses to license essential patents to other chipmakers, which prevents competitors from challenging its dominance.
  • Qualcomm offered Apple lower patent royalties if the iPhone exclusively used Qualcomm chips, locking competitors like Intel out of an incredibly popular phone. This allegedly stopped Apple from offering the iPhone on Sprint’s WiMAX network — which offered speeds faster than other networks’ 3G systems, but was supported by Intel.

The FTC says these behaviors are all anti-competitive, and that because Qualcomm’s patents are part of an official industry standard, they also violate a requirement to license the patents on fair, reasonable, and nondiscriminatory (FRAND) terms.

Please go to The Verge to read the entire article.

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Ed note: One of the top three technology companies suggested as being a top investment before 2020 is Qualcomm. Private equity firms investing in Qualcomm are not concerned about the downside risks to health 5G technology might present.

5G Network: 3 Companies to Invest in Before 2020 (QCOM, NOK)

5G Wireless: A Dangerous ‘Experiment on Humanity’

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