A wave message to move a limb can be traced to the limb receptor for a short period without the limb being actually moved; but a static overcharged condition soon builds up in the circuit of the tester's middle brain receptor if the energy is not dissipated through movement of the limb. Consequently, at intervals it is necessary to move the limb to which the energy wave is being directed.

A wave link always connected to our Vivaxis, appears to be the underlying influence that gives the brain receptor the versatile ability to control direction of movement of the various parts of the body.

Heart Receptor

When receiving an energy wave pattern from a heart receptor, the recording wire alternates continuously to the rhythm of the heart beat, regardless of the position of the head. To avoid confusion with a respiratory receptor, tilt the head down slightly while testing and if the alternating motion continues, one is confident that it is a heart receptor. The heart is directly involved in the communication system and it records wave interference readily. Therefore, count while you are testing to exclude other circuits from linking into your own.

Respiratory Receptor

When the head is level the respiratory receptor records a continuously alternating wave motion similar to the heart receptor. But if the head is tilted slightly the alternating motion ceases which is unlike the heart receptor. Then, how can we be sure it is a respiratory receptor? Breathe deeply with the head remaining tilted and a respiratory receptor will signal its response to the stimulation by an alternating motion of the recording wire.

Eye Receptor

Shut your eyes as you test and move them back and forth. If it is an eye receptor the recording wire will alternate, but the moment you stop moving the eyes the motion of the wire will cease. Usually, eye and brain receptors have close proximity, so check to determine the possibility of it being a brain receptor. Whenever the brain sends a message to the eyes or another part of the body, commanding them to move, the brain receptors designated to control that particular section are stimulated too, so it is possible a brain receptor controlling the eye movement has been located. Continue testing the same receptor, keep the eyes closed but do not move them; activate the brain by multiplying. An eye receptor will not become stimulated through multiplying but the brain receptor will; so check to differentiate.

Ear Receptor

While testing for the ear receptors listen to a ringing bell or similar source of strong sound vibration. If the recording wire alternates back and forth the receptor is either an ear or brain receptor because both will be stimulated by the sound. Continue the test but cease the ringing of the bell and activate the brain by multiplying; if the wire alternates back and forth it is a brain receptor but if it now remains stationary it is an ear receptor, determined by a process of elimination.

While testing the receptors of the eyes and the ears keep the head slightly tilted. This precaution does two things: it automatically prevents the introduction of your Vivaxis influences by assuring you are not aligned to your channel and it avoids confusion with the respiratory receptors.

The same general rules apply for locating all specialized receptors and with experience one soon learns to find their own.

I have compared many charts of the head which supposedly show areas associated with the various parts of the body. There are significant variations within these charts for the same body areas which indicates the "guess and by God" methods often employed to develop them. In general, we find the charts are of little value for pinpointing specific receptors, a requirement for specific channelling. The head is an entire network of receptors and we must precisely locate those that are disturbed in order to correct a circuit. To use a chart and stimulate a general area of the head prior to channelling can produce undesirable complications by overstimulating and unbalancing a variety of unconnected circuits. It is comparable to haphazardly crossing wires while attempting the repair of an intricate piece of electronic equipment.

Disturbed Receptors

What is a disturbed receptor? It is a receptor with a static electrical potential and lacking an organized arrangement necessary for any wave motion.

Apparently oxygen in our cells is necessary for a proper acid balance and an acid balance is essential for an organized alignment. This is illustrated when one holds their breath, for then all receptors temporarily have a disturbed circulating pattern. Many disturbed brain and code receptors probably originate from lack of oxygen; in some instances at birth when partial asphyxia caused the initial damage. We are successfully establishing an organized arrangement in the disturbed receptors; first, by directing the blood supply to the specific areas through stimulation, and then by introducing a strong magnetic wave flow through channelling. The new P.H.S. method automatically corrects most receptors and is being used almost exclusively.

Disturbed receptors are easily recognized: the recording wire does not move back and forth in a definite channel but circulates continuously. Generally, the circulating motion indicates a confliction in the receptor with a resulting static state. If the left index finger is transferring a true pattern, the static energy motivating the recording wire will keep it circulating, even if the wire is tilted fifteen or twenty degrees from the horizontal plane. The wire will cease to circulate instantly when it is tilted from the horizontal, if the tester is not relaying a genuinely disturbed pattern from the left receiving finger but merely transmitting a wave message initiated by his brain.

The tester may use another check by deliberately sending a message from the brain commanding the wire to stop circulating. If it ceases instantly, then the brain alone is controlling the wire and the test is invalid and without meaning, unless, of course, it is a healthy brain receptor that is being tested. To determine the possibility of the receptor being a brain receptor, multiply and observe the reaction before reaching a conclusion.

There are other circumstances that might cause a circulating pattern which should be verified before marking a disturbed receptor for correction. I always advise a recheck by counting and briefly closing the eyes. The first, to eliminate the possibility of another person linking their circuit into your brain receptor; the second, to avoid recording a healthy eye receptor. When the eyes are open an eye receptor has a circulating pattern, because the eyes are absorbing many waves from their surroundings. The circulating motion from the eye receptor ceases when the eyes are closed unless the receptor has a disturbance.

In conclusion, when testing your receptor it is necessary to ask yourself the following question: Is the circulating motion indicating energy imbalance, disturbance or temporary wave interference? A temporary wave interference that can be eliminated by counting, multiplying or shutting the eyes?