Anonymous ID: 70d3a1 Dec. 23, 2018, 1:02 p.m. No.4441984   🗄️.is 🔗kun

>>4441959

The identity of the prosecutor in the In Re Grand Jury Subpoena SCOTUS case has not been established. We don't know if it's Mueller's SC or some other prosecution.

Anonymous ID: 70d3a1 Dec. 23, 2018, 1:16 p.m. No.4442143   🗄️.is 🔗kun   >>2221 >>2225 >>2251

>>4442043

I'm having a lot of trouble with all this unsauced hand-writing about 5G. I don't personally know if it is a problem or not.

The smaller cells will be able to operate at lower power.

The effects of electromagnetic radiation (radio waves) on the human body vary with frequency, power, and distance. Also different parts of the body are affected differently (e.g. brain/eyeballs versus limbs). Also the type of modulation, and whether the transmission is continuous or intermittent.

 

When anon says the 5G waves are at 40-60 Hz (cycles per second) that is obviously false.

 

Conventional GSM and LTE cellular network uses frequencies below 4 GHz.

 

According to this website

https://www.rfpage.com/what-are-5g-frequency-bands/

in the USA 5G will use the following RF spectrum: 27.5 – 28.35 GHz, 37 – 40 GHZ, 64 – 71 GHz

 

The "G" multipler before Hz means giga, the prefix for billion.

 

The people who are saying, "oh, the frequency is oscillating so many times per second, that is obviously bad" are not thinking correctly. What matters is whether the specific frequency, at that power level, interacts with human tissue or not. Interaction depends on resonance and chemistry and other factors.

 

5G may be bad (I don't know one way or the other) but the things people are saying are just plain stupid. We need factual information written by people with knowledge of how radio frequency energy

interacts with biological life.

Not ignorant hand-waving that can be easily refuted because of improper terminology and omission of critical info such as power levels.

Anonymous ID: 70d3a1 Dec. 23, 2018, 1:25 p.m. No.4442242   🗄️.is 🔗kun

>>4442221

Specific chemical reactions can be dampened, or augmented, by the introduction of specific frequencies of energy. Might be tuned laser, might be RF, might be infrared, etc. Depends on the specific chemical bond you are trying to bond or break.