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[–][deleted] 2 insightful - 3 fun2 insightful - 2 fun3 insightful - 3 fun -  (4 children)

As long as the heat can be easily dissipated it's not a problem. Or if the frequencies are such that they don't interact with the human body much at all, or if they do, the amount of energy absorbed can easily be dissipated quickly as heat.

Dissipation relies upon grounding. If excessive energy is introduced in a short period via frequencies then it could burn out the ground wire, or if not grounded; then damage will result due to the alterations and buildup. The nervous system behaves in a similar fashion, but sedentary lifestyles are not the panacea. That being said, there are ways around this issue in other unique ways. I wouldn't completely discredit this, but rather simulate it better to the point of it being a solution in the real world; before implementation.

[–]magnora7 2 insightful - 1 fun2 insightful - 0 fun3 insightful - 1 fun -  (3 children)

Dissipation relies upon grounding.

No, not electrical dissipation. Heat dissipation. Once the EMF has been absorbed by the body, it's heat, not voltage. EMF generally does not induce static voltages in the body.

[–][deleted] 2 insightful - 1 fun2 insightful - 0 fun3 insightful - 1 fun -  (2 children)

Right but within the nervous system; heat dissipation relies upon various thermo-regulatory mechanisms like sweating, evaporation and circulatory functions. People who cannot dissipate heat properly are in danger of getting a heat stroke or heat-exhaustion leading to further complications. The cause of heat dissipation dysfunction usually involves something along the lines of nerve damage, dehydration, or skin damage/genetic predisposations.

Those causes of thermoregulatory dysfunction is what I labeled in the abstract sense as "grounding issues". Hence if the possibility of ameliorating those "grounding" issues for thermoregulatory dysfunction could be addressed then you may be able to survive in a higher frequency environment, if that makes sense. There needs to be a parallel solution on the side over time basically.

[–]magnora7 2 insightful - 1 fun2 insightful - 0 fun3 insightful - 1 fun -  (1 child)

Those are all good points, but even a block of wood will dissipate heat through conduction and convection

[–][deleted] 1 insightful - 1 fun1 insightful - 0 fun2 insightful - 1 fun -  (0 children)

Of course, its the same principle; but I am a little lost on what you mean now. In terms of cellular damage, a block of wood isn't the same complexity as the autonomic or central nervous system. Heat dissipation would also be a different mechanism for those two things since their physiology would be tailored to their differing functions. Iono? ¯_(ツ)_/¯