The materials used for the basic orgonites and electronites are exclusively aluminum shavings, quartz inside and polyester resin that with its pressure will make the piezoelectric function of the quartz possible. Orgonites can also use other materials such as iron shavings and cloudbusters, which in summary would be a large orgonite base, incorporate copper tubes that will function as “cannons” to “shoot” the orgone in a specific direction.
Could these materials (aluminum shavings, iron, copper tubes…) or a combination of all be likely to attract 5G? (Fifth generation of radio frequencies).
We have asked 2 different AI (Artificial Intelligence) about this question and these have been their answers:
Questions asked to IA ChatGPT https://chat.openai.com/:
- What frequencies does 5g emit?
- what millimeter size are these frequencies?
- what materials attract 5g?
- can we say that aluminum attracts 5g?
- and the copper?
- and iron?
- and the combination of copper, iron and aluminum?
ChatGPT
In summary, aluminum, iron and copper “are conductive materials that can affect the signal quality of 5G, but they cannot be said to attract 5G separately or mixed.”
Regarding iron, we copy-paste part of his answer (full answer in the video):
“Iron is a conductive material and therefore can have a similar impact to aluminum and copper on the 5G signal. Iron can reflect radio frequency waves, including 5G waves, and can interfere with their path. and reduce its intensity.
“In short, iron and other conductive materials can affect the signal quality of 5G, but iron cannot be said to attract 5G. …”
AI Perplexity.ai
Summary, there is no evidence to suggest that aluminum, iron or copper attract 5G either separately or in combination.
Full text of the answers offered by ChatGPT
at what frequencies does 5g emit?
5G broadcasts on different frequencies, including the low frequency bands (FR1), which comprise the frequencies from 600 MHz to 6 GHz, and the high frequency bands (FR2), which comprise the frequencies from 24 GHz to 100 GHz and beyond.
Low frequencies are used to cover large areas and provide uniform coverage, while high frequencies are used to provide faster data speeds in areas of high user density.
It is important to note that each region may have different regulations on which frequencies can be used for 5G, and some frequencies may be reserved for specific uses, such as satellite navigation or scientific research.
What millimeter size are these frequencies?
The radio frequencies used for 5G do not have a physical size in millimeters. Radio frequency is a form of electromagnetic energy that is measured in Hertz (Hz) and has no associated physical size.
However, the size of radio frequency waves is related to their frequency. Low frequency RF waves have a longer wavelength and therefore a larger wave size than high frequency RF waves. This means that high-frequency radio waves, like those used for 5G, have a much smaller wave size.
For example, radio frequency waves in the 600 MHz band have a wavelength of approximately half a meter, while radio frequency waves in the 24 GHz band have a wavelength of approximately 12.5 millimeters.
What materials attract the 5g?
5G is a form of electromagnetic energy and as such is not attracted to specific materials. Radio frequency waves can be reflected, absorbed, or penetrate different materials, which can affect your ability to reach your destination.
Some materials, such as metal and glass, can reflect radio waves, which can interfere with the 5G signal. Other materials, such as wood and concrete, can absorb radio frequency waves, which can reduce signal strength.
However, it is important to note that 5G uses different frequencies and bands to transmit data, and the ability of materials to affect the signal may vary depending on the frequency and band used. In addition, construction features and terrain topography can also affect 5G signal propagation.
can we say that aluminum attracts 5g?
It cannot be said that aluminum attracts 5G, since aluminum is a conductive material that can reflect radio frequency waves, including 5G waves. The presence of conductive materials can affect the quality of the 5G signal, as they can reflect and deflect radio frequency waves, interfering with their path and reducing their intensity.
It is important to note that the interaction of radio frequency waves with materials depends on many factors, including the frequency and band used, the shape and dimension of the material, as well as the distance and orientation from the source of the radiation. sign.
In short, aluminum and other conductive materials can affect the signal quality of 5G, but aluminum cannot be said to attract 5G.
and the copper?
Copper is a conductive material and can have a similar impact on the 5G signal as aluminum. Like aluminum, copper can reflect radio frequency waves, including 5G waves, and can interfere with their path and reduce their intensity.
In short, copper and other conductive materials can affect the signal quality of 5G, but copper cannot be said to attract 5G. The interaction of radio frequency waves with materials depends on many factors, including the frequency and band used, the shape and dimension of the material, as well as the distance and orientation from the signal source.
and the iron?
Iron is a conductive material and therefore can have a similar impact to the 5G signal as aluminum and copper. Iron can reflect radio frequency waves, including 5G waves, and can interfere with their path and reduce their intensity.
In short, iron and other conductive materials can affect the signal quality of 5G, but iron cannot be said to attract 5G. The interaction of radio frequency waves with materials depends on many factors, including the frequency and band used, the shape and dimension of the material, as well as the distance and orientation from the signal source.
And the combination of copper, iron and aluminum?
The combination of copper, iron and aluminum can affect the 5G signal in a similar way to any of these materials individually. Being conductive, these materials can reflect radio frequency waves, including 5G waves, interfering with their path and reducing their intensity.
The presence of multiple conductive materials in the same area can increase the amount of reflections and therefore increase the probability of interfering with the 5G signal. However, the interaction of RF waves with materials depends on many factors, including the frequency and band used, the shape and dimension of the materials, as well as the distance and orientation from the signal source.
In short, the combination of copper, iron and aluminum can affect the signal quality of 5G, but the combination of these materials cannot be said to attract 5G. The interaction of radio frequency waves with materials depends on many factors.
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