5G (5th generation) in and of itself encompasses multiple frequency bands, some of which have historically been considered acceptable, within limitations on power and distance from the user(tower height).
The part of the 5G spec. that is newer includes higher frequency bands (24GHz
plus), which have historically been limited to point-to-point relay infrastructure, typically using high power transmitters on high towers, to stay out of harms way, using very directional dish antennas to maximize the link distance.
Unfortunately the newer 5G adoption of those higher frequency bands involves shorter, lower tower-to-user, links which by there very nature increase problematic exposure. You'll see them popping up all over, many of which are on street-light height poles, some with and some without the lights.
You can debate whether 'all' cellphone use is bad, but it is the newer portions of the 5G spec(24GHz plus), for the individual's use, that are most more difficult to defend as safe, and should worry people.
5G (5th generation) in and of itself encompasses multiple frequency bands, some of which have historically been considered acceptable, within limitations on power and distance from the user(tower height).
The part of the 5G spec. that is newer includes higher frequency bands (24GHz plus), which have historically been limited to point-to-point relay infrastructure, typically using high power transmitters on high towers, to stay out of harms way, using very directional dish antennas to maximize the link distance.
Unfortunately the newer 5G adoption of those higher frequency bands involves shorter, lower tower-to-user, links which by there very nature increase problematic exposure. You'll see them popping up all over, many of which are on street-light height poles, some with and some without the lights.
You can debate whether 'all' cellphone use is bad, but it is the newer portions of the 5G spec(24GHz plus), for the individual's use, that are most more difficult to defend as safe, and should worry people.