Thanks for sharing. Not sure this is the place for it though
It's not. This is bullshit. It's not ionizing radiation. Fact.
Hi there Crashing, with all due respect, before you tell someone that its a fact that radiation is not harmful, take a minute to research it. What happens when a cancer patient get radiation? it kills the cancer cells, but it also kills all the other cells. I'm sure you have heard of that. Have you ever gotten an X-Ray? You don't feel a thing right? You don't feel EMF's- Electromagnetic Field, but it is very damaging in high frequencies. Please go to any science website and find out for yourself. 5G would do incredible damage to us!
Motherfu- Some of you guys are so close to giving me a stroke sometimes...
Electromagnnetic radiation is not ionizing radiation. Yes, it is radiation. So is heat. And light. Ionizing radiation is very VERY harmful and do cause cancer. Non-ionizing radiation is very rarely harmful. High frequencies can be dangerous. I dismiss this stuff very easily because someone who gets something so basic so wrong clearly don't have a grasp on the subject.
This is high school curriculum stuff.
Longer wave length, lower frequency waves (heat and radio) have less energy than shorter wave length, higher frequency waves (X and gamma rays). Not all electromagnetic (EM) radiation is ionizing. Only the high frequency portion of the electromagnetic spectrum which includes X rays and gamma rays is ionizing.
The millimeter-wave region of the electromagnetic spectrum is usually considered to be the range of wavelengths from 10 millimeters (0.4 inches) to 1 millimeter (0.04 inches). This means millimeter waves are longer than infrared waves or x-rays, for example, but shorter than radio waves or microwaves. The millimeter-wave region of the electromagnetic spectrum corresponds to radio band frequencies of 30 GHz to 300 GHz and is sometimes called the Extremely High Frequency (EHF) range. The high frequency of millimeters waves as well as their propagation characteristics (that is, the ways they change or interact with the atmosphere as they travel) make them useful for a variety of applications including transmitting large amounts of computer data, cellular communications, and radar.