C3, CZ and C4 Intensity Resulting from the Initial Audio Rhythms
EEG data is obtained by placing an electrode on the skull and measuring the minute amounts of electricity created by the brain. It is well known that the brain may be more active in one region and less active in another. The next goal in the development of optimal rhythmic patterns for the creation of RAS-1 is to attempt to influence the electrical activity of a specific region of the brain.
There are well defined points that are used for collecting EEG data. If an imaginary line is drawn from the left ear to the right over the top of the skull the point at the peak is called CZ. The point half-way between CZ and the left ear is called C3 and the similar point on the right side is called C4.
In the graph below an individual listened for 60 minutes to the same audio rhythms as used in the previous examination. The change in the delta intensity over time for the left (C3), middle (CZ) and right (C4) points is plotted.
It is clear from the above graph that the right region of the brain (C4) is much less active than the left region (C3). A series of experiments were performed to see if the activity of the left and right regions could be more closely balanced. The results are presented below.
This is quite remarkable! Not only is the brain function altered from normal, day-to-day consciousness (beta) to a very difficult to obtain and very relaxing state (delta) but the amount of electrical activity, and therefore the amount of neurological activity, of a specific region is increased or decreased by the judicious choice of rhythmic variables.
A numbered of professionally published and peer-reviewed studies suggest that increased or decreased activity in specific regions of the brain is correlated with behavioral, emotional or psychological disorders. A method of altering regional brain activity has been demonstrated in this brief presentation.
Additional EEG data will be published on this site at a future date.
• Why investigate rhythmic audio stimulation?
• Methods of the generating rhythmic audio stimulation.
• Information and listening directions for the RAS-1 CD.
• Information about the author.
Please note that I have NO training in the medical profession, that I make NO claims of medical competence and that I am TOTALLY incapable of rendering any medical opinion. I am trained as a scientific researcher, having worked predominantly with the growth, processing and characterization of thin films. My area of greatest expertise was in ultra-high vacuum surface spectroscopy. I approach the analysis of rhythmic audio stimulation in an analogous manner to my spectroscopic investigations.