5G

All wireless devices, including cell phones and wifi routers, have been around for over two decades, These technologies are useful and integrated into our daily life, Yet suddenly it’s very urgent you change these behaviours. Why? 

The answer is simple: 5G . This latest wireless technology is on the verge of changing your electromagnetic reality. 5G is an abbreviation for fifth generation, which makes it sound like a simple improvement on 3G or 4G technology. But this is a misperception, because the true 5G is an entirely different creature that will use a different part of the electromagnetic spectrum than what is already in use. The difference between 4G and 5G is the equivalent to a mountain stream of EMF and a vast ocean of it. 

This is because 5G will not replace existing wireless technology, but rather add to it. That means every single person microbe, insect, animal and plant will experience an exponential increase in EMF exposure, at frequencies that has not been tested for it’s long-term health ramifications.  

Millimetre Waves      

Phones and devices currently use LTE (long-term evolution) technology 2.4GHz.  5G radio waves will use 6GHz.  5G will have a bandwidth between 24 and 28GHz,  it is expected that a bandwidth above 30GHz will be added there is also mention of up and over 60GHz.  These frequencies are structurally very different form the ones that power 3G and 4G networks. 

Part of the frequencies that 5G will use will be millimetre waves (MMWs), because the length of one wave is less than 10 millimetres.  Lower frequencies that are currently used (and will also be continued to be used), which have lengths that are measured in the tens of centimetres. The main reason telecommunications companies are turning to MMWs is that their bandwidth is significantly larger than the radio waves that current cell phones an wifi technologies use. That means a lot more information can be carried on them, enabling data to be transmitted in large amounts, at a much faster speed, and significantly shorter waiting time. 

Large numbers of uses will be able to use s a the same time much more efficiently than 3G and 4G. That means people in packet and crowded places  will be able to make calls and download data without lag time. However MMWs present some challenges as they are easily obstructed by obstacles such as trees, buildings and walls in your home and office. They can also be absorbed by rain and humidity. This means significantly more antennas will be needed to provide consistent and reliable coverage – not just a few more but literally billions of antennas compared to the 300.000 cellular towers that exist today. They will be required every 3 to 10 house. They are called small cell because unlike the 90-foot cell towers 3G and 4G uses which are usually spaced every few miles apart these small cell antennas will be mounted on lampposts, bus stops and buildings.

Existing cell towers each have each have 12 antennas eight for transmitting data and four for receiving-each small cell has rom for about 100 antenna ports, many of these small cell stations will have 4G transmitters with much more precision than existing cell towers The 5G antenna will then beam signals and information to that mobile device with very high speed; 4G and 5G technology working together, and 4G transmitters will be updated to 5G over the coming years.

Most home owners, work places, schools will be saturated by small cells with a small cell base mounted right outside or very near,

Because MMWs have a smaller wave length than the frequencies used by 3G and 4G technologies, the antennas used to broadcast them are also small. Each small cell antenna uses multiple-input multiple-output (MIMO) technology which allows several uses to send and receive information from each antenna simultaneously. Because each antenna uses MIMO and each base has hundred of antennas, this is known as massive MIMO, which helps expand the numbers of uses and bits of information the network can serve.

It also means that there is a high probability of interference with all those singles bouncing around in close proximity to each other. Thats where beamforming comes in. Beamforming takes one signal and concentrates it into a beam that takes the most direct route to the user. MMWs cannot easily penetrate building materials like wood, brick, or even glass without being beamformed. Keep in mind these new signals from all these extra antennas and base stations is in addition to the EMF swamp that we are already soaked in.

Small cell stations will have never-ending 4G LTE antennas constantly spraying homes with RF signals, the power of the signal will be lower than that of standard 4G cell towers but these small cell antennas will be so much closer to peoples homes especially second floor bedrooms, that 4G RF from continuous from 4G transmitters will be flooding bedrooms with strong RF signals, much stronger than the 4G from near by existing macro cell towers. Small cells will also send beamformed 5G signals into homes, but primarily when device inside the home initiates a wireless connection (for example, when someone uses a cell phone). so the 5G will not be constant like the 4G signal will be. When 5G signal do come into your home, they will be strong focused and harmful. The signals emitted from both 4G and 5G are highly problematic and resistance to the 5G infrastructure is already growing strong by activists that are focusing their efforts as much on preventing 4G on small cell  transmitter stations as they are preventing 5G transmitters from going up in residential neighbourhoods.

The promise of 5G   

If 5G is such a problem why are we racing to adopt it? If you don’t consider the health ramifications 5G seems like a pretty appealing development. it will reduce many of the frustrating current connectivity issues, such as dropped calls slow down load times and replacing them with a long list of benefits, 5G offer faster connections, with a down load speed of 20 gigabytes(GB) per second as opposed to a limit of 1 per second with LTE, That means you can download a high definition movie in about a second, compared to 10 minutes with LTE. Greater bandwidth, s have a larger bandwidth so more users will be able to use the same network at the same time. Low latency which is the time a send message takes to be received. latency for 5G will be less then a millisecond, which is a hundred times faster the 4G. That means there will be virtually no delay in transmission and perception, any technology that requires near-instantaneous communication, such as driverless cars communicating with each other to avoid accidents. 

A massive Internet of things.  

The greater bandwidth will enable the Internet of things-or the everyday devices and appliances to be come truly massive 20.4 billion devices are projected and connected by 2020 Thanks to 5G we will have washing machines that order their own detergent, refrigerators that monitor their supply and other technologies that have not even been imagined yet. 

Smart cities.  

The Internet of things will extend beyond the walls of your home, smart utility meters are already sending usage back to the utility companies. street lights, water mains, pipes will all be sending continuous information back to the utility companies so that the energy grid and infrastructure can be monitored on a minute-by-minute bases, as can, traffic,  parking spaces and public surveillance. All this efficiency will require continuous transmitting and receiving of signals. The roll out of smart cities has been in the works since 2017 when it was announced its plans to roll out 5G starting with 11 cities including Miami, and Washington, in 2018 another 12 cities including Carolina as well as Oklahoma and another 9 cities by 2019 which will continuously increase world wide.

The real reason is not for your benefit.

The telecom is promoting 5G as a necessity for modern life-something that will take us out of the stone ages into a new frontier of appliances that will do much of our labour for us. But all of this posturing about the public good is really just a smoke screen, Its about not having to install cable and saving money for the telecom companies It will not solve the digital divide, the real purpose of 5G this massive build-out of small cell wireless infrastructure is to able telecom companies to beam their signal into homes and building without having to install cables. Make no mistake 5G is absolutely big business. It isn’t about human good it’s about the wireless industry’s bottom line. If something can be connected, it will be connected in the 5G world; but with the billions of microchips you can be sure . . . the biggest Internet of things is about to become very clear. 

You won’t be able to opt out of 5G coverage-or the radiation that comes with it.  

A Big piece of that massive deployment is low orbit satellites. because  MMWs can’t travel very far as they are absorbed by humidity and rain and can’t penetrate buildings without beamforming satellites will transmit and receive signals to and from users on the earth, and not just a couple of satellites, either, but as many of 50,000, will be launched by companies including SpaceX,  Oneweb and Amazon. although it sounds futuristic, these satellites have already begun to be launched into space: A whopping 180 satellites were launched into space in the month of August 2020, bringing the total number of satellites launched to 650 & 1400 by the end of 2020,  you may of seen the trains of satellites over head, which is continuously increasing in numbers.

Eventually these satellites will blanket the entire Earth in a fields of MMW radiation that will be imposable to escape from. Scientists describe these satellites flooding the planet with microwave radiation as a violation if human rights, Space based microwave radiation threaten to inundate the planet with RF radiation.