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Reason: None provided.

A problem with that theory is that antennas are specifically sensitive to length, and to work effectively they must resonate at the comm frequency, and be terminated in the right impedance to avoid reflected wave self-interference. My guess is you can't do that very well with a transmitter injected into a biosystem that has to use the biosystem materials. So the problem is the performance would be highly variable, plus a wet organic medium is really not super good for being an antenna. It can be a conductor, but that alone would not make it good to use as an antenna at 5G frequencies. I won't say it's impossible but so many factors say it's a lousy comm system.

On the power side of design, the body does have intercellular electric activity - that's what the nervous system does - but the power levels are nanowatts, and you can't produce RF from that that can go anywhere. It would be super weak. Today's world is very noisy electrically, and any bio RF at nanowatt levels would be drowned out. Cell towers are not designed to pick up RF that is that weak.

Now, the interesting thing is, biosystem RF systems could pick up cell tower RF, which is high powered. So this inverse direction is feasible, and my question is whether injected technology can be used to bring in 'orders' from outside.

1 year ago
1 score
Reason: None provided.

A problem with that theory is that antennas are specifically sensitive to length, and to work effectively they must resonate at the comm frequency, and be terminated in the right impedance to avoid reflected wave self-interference. My guess is you can't do that very well with a transmitter injected into a biosystem that has to use the biosystem materials. So the problem is the performance would be highly variable, plus a wet organic medium is really not super good for being an antenna. It can be a conductor, but that alone would not make it good to use as an antenna at 5G frequencies. I won't say it's impossible but so many factors say it's a lousy comm system.

On the power side of design, the body does have intercellular electric activity - that's what the nervous system does - but the power levels are nanowatts, and you can't produce RF from that that can go anywhere. It would be super weak. Today's world is very noisy electrically, and any bio RF at nanowatt levels would be drowned out. Cell towers are not designed to pick up RF that is that weak.

1 year ago
1 score
Reason: None provided.

A problem with that theory is that antennas are specifically sensitive to length, and to work effectively they must resonate at the comm frequency, and be terminated in the right impedance to avoid reflected wave self-interference. My guess is you can't do that very well with a transmitter injected into a biosystem that has to use the biosystem materials. So the problem is the performance would be highly variable, plus a wet organic medium is really not super good for being an antenna. It can be a conductor, but that alone would not make it good to use as an antenna at 5G frequencies. I won't say it's impossible but so many factors say it's a lousy comm system.

On the power side of design, the body does have intercellular electric activity - that's what the nervous system does - but the power levels are nanowatts, and you can't produce RF from that that can go anywhere. It would be super weak.

1 year ago
1 score
Reason: Original

A problem with that theory is that antennas are specifically sensitive to length, and to work effectively they must resonate at the comm frequency, and be terminated in the right impedance to avoid reflected wave self-interference. My guess is you can't do that very well with a transmitter injected into a biosystem that has to use the biosystem materials. So the problem is the performance would be highly variable, plus a wet organic medium is really not super good for being an antenna. It can be a conductor, but that alone would not make it good to use as an antenna at 5G frequencies. I won't say it's impossible but so many factors say it's a lousy comm system.

1 year ago
1 score