5G is a protocol that will use high frequency bands and extensive bandwidths of the electromagnetic spectrum in the vast radiofrequency range from 600 MHz to nearly 100 GHz, which includes millimeter waves (>20 GHz), in addition to the currently used third generation (3G) and fourth generation (4G) long-term evolution (LTE) microwave bands. 5G frequency spectrum allocations differ from country to country. Focused pulsed beams of radiation will emit from new base stations and phased array antennas placed close to buildings whenever persons access the 5G network. Because these high frequencies are strongly absorbed by the atmosphere and especially during rain, a transmitter’s range is limited to 300 meters. Therefore, 5G requires base stations and antennas to be much more closely spaced than previous generations. Plus, satellites in space will emit 5G bands globally to create a wireless worldwide web. The new system therefore requires significant densification of 4G infrastructure as well as new 5G antennas that may dramatically increase the population’s WCR exposure both inside structures and outdoors. Approximately 100,000 emitting satellites are planned to be launched into orbit.This infrastructure will significantly alter the world’s electromagnetic environment to unprecedented levels and may cause unknown consequences to the entire biosphere, including humans.The new infrastructure will service the new 5G devices, including 5G mobile phones, routers, computers, tablets, self-driving vehicles, machine-to-machine communications, and the Internet of Things.
Let's apply some logical questioning to try to come to a reasonable assumption:
If the satellites were limited in the way terrestrial antennas/transmitters are, why would there be 100,000 satellites emitting the same frequencies back towards the earth? If they could not serve their purpose, why would that be their purpose?
i'M pReTtY sUrE they don't have the same limitations since they're there doing that, so far far far far away (a smidge outside 300m). Could it be a regulation difference between terrestrial and space equipment? I would think it has to do with signal/frequency density. BECAUSE they're so far away, they can turn the dial up as the frequency disperses and weakens as it passes through the atmosphere.
Stand right beside a 5G antenna for a month and tell me about your health... if you can at that point.
Then again, maybe space is fake and 5G satellites in space is code for something else.
"... a transmitter's range is limited to 300 meters."
This means that many people in rural areas will never get 5G because their houses are too far from the road.
I don't get 4G in my area and barely get 3G.
That may be the point of the 100,000 satellites.
I'm pretty sure the satellites will be more than 300 meters away. I still don't think I'll get any 5G at my house.
Let's apply some logical questioning to try to come to a reasonable assumption:
If the satellites were limited in the way terrestrial antennas/transmitters are, why would there be 100,000 satellites emitting the same frequencies back towards the earth? If they could not serve their purpose, why would that be their purpose?
i'M pReTtY sUrE they don't have the same limitations since they're there doing that, so far far far far away (a smidge outside 300m). Could it be a regulation difference between terrestrial and space equipment? I would think it has to do with signal/frequency density. BECAUSE they're so far away, they can turn the dial up as the frequency disperses and weakens as it passes through the atmosphere.
Stand right beside a 5G antenna for a month and tell me about your health... if you can at that point.
Then again, maybe space is fake and 5G satellites in space is code for something else.