Information about 5G Towers plus Light Symptoms
The spectrum of frequencies used in 5G networks has been identified as possibly carcinogenic to humans by IARC. To understand the potential health risks, it is beneficial to be aware of the risk classifications provided by the IARC for RF-EMF exposure. The spectrum for 5G networks will be discussed in the article as is Dr. Curry's conflict of interest and the business.
IARC classification of exposure to RF-EMF in the Group 2B (possibly carcinogenic for humans)
RF-EMF exposure occurs from many sources, including personal electronics, external sources (such as base stations for cell phones, broadcast antennas, and medical applications), and occupational exposure. In the world there are more than 5 billion people use mobile phones, and usage is rapidly increasing. Cell phone usage is particularly significant in middle and low-income countries, where over seventy percent of adults report owning a cell phone. The use of cell phones is also increasing in high-income countries, where almost ninety percent of adults having one.
According to the IARC that exposure to RF-EMF may cause cancer in humans. But the data available today do not allow us to fully evaluate the risk from RF exposure. We are able to estimate the length of time exposure could cause cancer, if it occurs.
Frequency spectrum used by 5G networks
There are several kinds of frequencies that can be utilized for 5G network. Mid-band spectrum, for example is capable of high-speed speeds, but is not as effective when it comes to building the penetration. However high-band spectrum is able to provide speeds upwards of 10 Gbps. This means it is more efficient when it comes to networks 5G in urban areas and bustling venues.
The spectrum for 5G networks is contingent on the regulations of each country and international standards. For example, some countries utilize 60-64GHz bands, while others don't. The United States, the FCC has allocated 7 GHz of spectrum to allow licence-free operation in the 57-64GHz band.
5G networks also will use higher frequencies than 4G networks. This is because higher frequencies have greater bandwidth than lower frequencies. For instance, the mmWave bands for example, have much more bandwidth than lower bands.
Dr. Curry's conflict of interests with industry
In August 2005, Dr. Curry contacted AI Life to request an independent medical examination and medical record review. The doctor also requested the report of her primary physician Dr Goodkin, and a second report from Dr Glushakow. Both doctors did not agree with Doctor. Goodkin concluded that Curry's knees were weak enough for her to be able to commute regularly. On January 18, 2006, AI Life denied Curry's appeal. On April 11 in 2006, she made a detailed appeal of this decision. In her appeal, she referenced Dr. the Glushakow report and an earful from a new medical expert named Dr. Dabrowski.
Curry's first appeal cited the issue she was a victim of AI Life. AI Life had rejected her medical records despite her claim that she had a disability. AI Life subsequently requested that her medical condition be reviewed by an independent physician, Dr. 5g towers radiation symptom . Lee an orthopaedic surgeon board-certified. In his February 2, 2005 report, Dr Goodkin found that Curry's impairment did not prevent her from being able to work in a sedentary job. In the report, it was also noted that AI Life had not given Curry an ear modification that was suitable in her situation.