Brain Waves and Torsion Fields: A Critical Examination

We begin our journey into the mysterious world of scientific research, where the energy of the brain’s electrical activity is clearly captured by modern technologies, while the mystical concept of torsion fields remains at the level of contentious hypotheses. Brain waves are the result of the electrical and chemical activity of neurons, objectively measurable and confirmed by multiple experiments; they form the foundation of neurophysiology. In contrast, the presented materials focus on discussing the physical nature of torsion fields and their possible influence on gravitational processes, rather than on any connection with brain activity. The experiments cited in the sources indicate the extremely minor role of torsion fields and underscore the lack of reliable data linking them to neurophysiology. The author’s critical remarks and doubts regarding experimental results further reinforce the notion that attempts to combine these two phenomena are not yet based on solid scientific evidence. In conclusion, it can be said that modern science remains skeptical about efforts to tie brain waves to torsion fields, since each of these fields has its own unique dynamics and requires a separate approach. This inspires further research and shows how critical analysis can help separate verified facts from speculation.

How do brain waves function and is there any connection between them and torsion fields?
Answer: Brain waves represent electrophysiological oscillations that occur as a result of the activity of the brain’s neurons. These processes are explained in neuroscience through the electrical and chemical activity of nerve cells. The presented materials primarily focus on torsion fields, their presumed nature, experimental validations, and a critique of several controversial theories, but they do not discuss the physiological mechanisms behind the formation of brain waves. In other words, the cited sources lack scientific justification or experimental data indicating any connection between brain waves and torsion fields.

For example, one of the excerpts from file link states:
"In principle, modern physics does not deny the possibility of the existence of torsion fields. But even if they are discovered, they would appear only as an extremely small addition to the gravitational field – that is, to the gravitational field. So far, they have not been detected using even the most sensitive modern instruments." (source: link )

This excerpt emphasizes the subtle role of torsion fields in physics, primarily associated with gravitational effects, and does not address aspects linked to brain activity.

Additionally, another piece of material from file link offers a critical description of several claims regarding torsion fields, where the experiments and assumptions by the authors remain controversial and unsupported by a rigorous experimental base. Not a single confirmation is provided for any mechanism linking such physical fields with brain processes. (source: link )

Thus, the provided sources lack data or theoretical justifications that would connect the operation of brain waves with torsion fields. Modern science considers brain waves as a function of the brain's electrical activity, whereas torsion fields, even if they exist, are used to describe other kinds of physical interactions that are far removed from a neurophysiological context.

Supporting citation(s):
"In principle, modern physics does not deny the possibility of the existence of torsion fields. But even if they are discovered, they would appear only as an extremely small addition to the gravitational field – that is, to the gravitational field. So far, they have not been detected using even the most sensitive modern instruments." (source: link )

"…Discussions about how torsion fields could explain the workings of the subconscious…" (source: link )

These citations confirm that the focus of the cited works is on discussing the physical nature and experimental verification of torsion fields, rather than on establishing a connection to brain waves.