Are usually safest distance from the 5G cell Structure?

If you've ever wandered through a town and spotted tiny 5G cell towers placed on poles for street lighting. They look like small boxes however, they're actually transmitting wireless signals from cell phone providers to your phone.

They are replacing the larger built cell towers. While they're less noticeable, they still can create problems for those who live nearby.
The of the FCC's Radiation Exposure Thresholds

The FCC's Radiation Exposure Thresholds determine the safe distance that one can expose to electromagnetic radiation from wireless devices. The limits for exposure are based on scientific data which show that the energy of RF could be harmful to human health.

The specific absorption rate (SAR) is a measure of the radiofrequency energy that is taken up by tissues. It's usually 1.6 watts per kilogram, spread over a kilogram of tissue.

However, because 5g transmits at higher frequencies, it has the potential to create more energy on the skin and other directly-exposed body areas. This could result in a wide range of potential harms, including exacerbated appearance of skin conditions such as dermatitis and cataracts and skin cancer.

Due to the possible severe effects of 5g radiation, PSU has chosen to establish a general, localized maximum power density of four mW/cm2 measured on 1cm2, and not to exceed 30 minutes, for all 5G services running at 3000 GHz. This limit for localization is in line with the peak spatial-average SAR of 1.6 W/kg, which is averaged over 1 grams of tissues at six GHz.
The FCC's Maximum Exposure Thresholds for Maximum Exposure

If you've ever used a cell phone, then you're aware that the safest range from the tower is at least 400 meters away. This is due to the power of the transmission of a cell tower increases dramatically the further your location from the tower.

While it sounds like something that's good but the truth is that people living in close proximity to towers might be more vulnerable to health problems. For instance, a 2014 study in India found that residents living within 50 meters of cell towers experienced much more health problems than those who were away from the antennas.

But, the study showed that residents who moved into areas farther away from the cell towers saw their symptoms return to normal within a few days. Other studies have revealed that exposure to high amounts of electromagnetic field radiofrequency (EMFs) can cause brain tumors, cancers, and other health problems.

This is due to the fact that RF radiation, used for wireless communication, has the ability to be absorbed by the body's outer layer of skin. It is vital to be aware of this since the skin functions as a protective barrier against mechanical injury, infection caused by pathogenic microorganisms and infiltration of toxic substances. The skin is the most important organ in the human body.  how far can a cell tower reach  is accountable for protecting other organs.
The FCC's Minimum Exposure Thresholds for the Minimum Exposure

The FCC's Minimum Exposition Thresholds depend on several assumptions that are not supported by scientific research. These include the erroneous assumption that short-term exposures to RF radiation are safe due to minimal radiation penetration in the human body (i.e. thermal heating of tissue).

The assumption also ignores the more extensive penetration of ELF parts of modulated RF signals as well as the effects of brief bursts of heat caused by RF pulses. These theories are not compatible with the current understanding of biological consequences of RF radiation. Therefore they should not be considered for health protection exposure standards.

In addition there is the fact that both ICNIRP and FCC restrict their maximum radiation limits for local peak SARs, based on the peak frequency of absorption (psSAR), which can be described as not a sufficient dosimetric tool to assess the amount of exposure to RF radiation. In particular it is inconclusive when frequencies exceed 6 GHz. Additionally, psSAR hasn't been evaluated for RF radiation that is exposed to other environmental agents , such like sunlight. In the event of interactions, RF radiation with other agents in the environment could result in antagonistic or synergistic effects. This would result in the risk of having adverse health consequences. For example, co-exposure to RF radiation along with exposure to sunlight can raise the chance of developing skin cancer, as well as aggravate other skin diseases such as acne.