The same basic rules, relevant to the testing of your own receptors, apply to the receiving and recording of wave patterns from another person. However, there are important additional requirements that are necessary and must be respected; also they should be thoroughly understood before assuming the responsibility of wave testing other people's receptors.

I shudder when I hear the comment, "I can test other people's receptors, but not my own." Victims beware! No individual is qualified to test the receptors of another person when they are unable to test and identify their own receptors accurately. This inability is an indication of foreign radiation or some other interference causing wave confliction to the central controls of the would-be tester. Under these circumstances, the tester would probably inject his disturbance through his left index finger into the person being tested, rather than receive a wave pattern from the latter. The would-be tester's brain is initiating and activating the wave motion in the recording wire. Irresponsibility of this type is not only detrimental to the person being tested, but also jeopardizes the reputation of the science.

The person testing is incapable of receiving a wave pattern during the time his middle brain section is in a static state; in fact, he will introduce the static condition into the individual being tested. Therefore, a trained wave transmitter first tests himself to assure he is neutral and as he proceeds with his testing will recheck continually to detect a possible static condition building up in his system. The wave transmitter also makes sure that the person he is testing is neutral.

Method of testing: In the following description we refer to the person being tested as "Z", and the wave transmiuer, the individual who is conducting the test, as "W.T.".

Requirements

Reasons

1. The testing ground must be neutral and not directly under electric light.

To avoid a static condition in the participants and resulting wave interference.

2. Both participants must be neutral.

A static condition in the brain receptors causes interference and a meaningful wave pattern cannot be re-cieved.

3. Z is seated in a direction not related to his Vivaxis with his head slightly tilted. W.T. also keeps his head slightly tilted while testing.

Tilting their heads is an extra precaution taken to avoid either one of them from aligning to his own Vivaxis.

4. Z sits with feet apart and not touching the legs of the chair. Hands are kept separate and placed on the legs.

It is necessary during testing to have the two groups of quanta separated.

5. Z must keep his eyes shut while being tested.

To avoid another wave being introduced into his circuit through his eyes.

6. Z must count or multiply during the time he is being tested.

This enables Z to shut out wave interference from W.T. and others in his surroundings. If he stops counting, a circulating pattern is registered by the recording wire. This ability of Z's to cut others out of his circuit by diverting his energies to his brain, is the only thing that makes possible the wave testing of others.

7. If W.T. receives a disturbed circulating motion in the recording wire, he should double check at least five possibilities before he can be sure the circulating motion indicates Z has a disturbed receptor.

(a) Were Z's hands and feet together?

(b) Did Z have his eyes open?

(c) Was Z counting?

(d) Was there a temporary disturbance in the atmosphere; e.g., a plane overhead, etc.?

(e) Was the cause due to W.T.'s own receptor, corresponding to that of Z's, registering the disturbance?

There is a wave linkage of the two corresponding circuits between W.T. and Z and the disturbance recorded might belong to either one.

Therefore the wave transmitter must test his own receptor corresponding to the one tested on Z. (Discussed in detail, later in the chapter.)

8. No other person should test a receptor on Z before Z grounds his hands firmly on a table.

If W.T. has interference he might have transferred his interference into Z.

Requirements

Reasons

9. W.T. must ground his hands firmly on a table each time after he tests Z's receptors.

To immediately cancel Z's wave out of W.T.'s circuit before he proceeds. This protects W.T. from retaining too much of Z's radiation.

10. W.T. must not test any receptors on Z which are higher in elevation than W.T.'s chin.

The direction of energy flow reverses in W.T.'s receiving arm when lifted above the level of his own chin.

The wave linkage between similar circuits of the wave transmitter and the person being tested, noted in 7 E of the foregoing table, is of great significance. When W.T. tests a specialized receptor of Z's head, the wave transmitter's corresponding circuit must be free from disturbance to obtain a meaningful test. For example, if the wave transmitter had a disturbed thymus gland himself, then all the thymus gland receptors he tested on Z would show a disturbance, even though Z's thymus is perfectly normal and healthy. Further, W.T. would introduce a very temporary disturbance into the healthy receptors of Z. A disturbance of which Z should be made aware and immediately ground out, as noted in 8. Similarly, if Z has a disturbed receptor that is received into W.T.'s circuit then the disturbance is introduced into the corresponding receptor of the wave transmitter. The wave transmitter is trained to test himself immediately as noted in 7 E, and ground out as noted in 9.

A trained and qualified instructor, testing another person's receptors can detect instantly if the disturbance he is recording is Z's or his own. A disturbed receptor picked up and transferred through the tester's left index finger has a static electric potential which causes the wire to circulate. The wire will continue to circulate even when tilted considerably off the level plane, for it is registering a static potential and not a wave motion. If it was a wave motion then the gyrations of the wire would cease when it was tilted, for the recording wire must be level to record wave motion. A message sent by the brain for the wire to circulate is a wave motion, not a static disturbance, and therefore, if the wire is tilted slightly the gyration ceases as these waves travel only in horizontal and vertical planes.

When a wave transmitter records a disturbance, his first question, "Is it in my circuit or Z's?" If the disturbance is in Z's receptor, the tester will be unable to stop the circulating wire by a command from his own brain. Also, the wire will continue to circulate if tilted slightly off the level position.

In contrast, if W.T. receives a healthy wave pattern from a receptor associated with one of Z's circuits, say his ear, and W.T. has a static condition in his corresponding ear circuit, then he is unable to properly record and transfer Z's wave while testing that particular circuit. W.T. will pick up a wave in the left index finger but the static in his own ear circuit will interfere and the recording wire will only register a circulating action. Since this is largely a disturbed wave motion the wire will cease gyrating at the command of W.T.'s brain and it will also cease to circulate when tilted. A third test for W.T. is to ground by pressing his hands firmly on a table and then testing his own receptor. This time the static is received through W.T.'s left index finger and the wire will continue to rotate when it is tilted slightly from the horizontal and in defiance of the brain.

Also, W.T. must be alert to the fact the circulating wire may indicate another wave introduced into the circuit, due to Z not counting, Z had his eyes open, or there was a temporary outside interference. Under these circumstances W.T. will first try to stop the wire with his brain but without success. Secondly, he will tilt the wire and it will cease rotating, because he is receiving wave motions, in this case more than one.

Thus the wave tester must be able to interpret the cause of the circulating motion of the recording wire when testing receptors of other people, which is summarized below.

1. If Z has a disturbed receptor:

(a) The wire will continue circulating if W.T. attempts to stop the motion with his brain.

(b) The wire will continue to circulate when tilted slightly off the level plane.

2. If W.T. has a disturbed receptor corresponding to the one he is testing on Z:

(a) The wire's circulating motion can be stopped by a command from W.T.'s brain.

(b) The wire will cease circulating when tilted off the level plane.

3. If another wave pattern is introduced into the circuit:

(a) The wire will continue to circulate when W.T. attempts to stop the motion with his brain.

(b) The wire stops circulating when slightly tilted because it is a wave motion.

If the wave transmitter is properly qualified, with sufficient experience and training, he should not introduce any disturbance into the circuits or receptors of Z. First, he will be sure all his own receptors are free from disturbances.

Second, he will make certain he is not static and the person being tested is also neutral.

Third, if his Vivaxis is at an elevation above him, he will be sure to reverse his energies while testing, by using a container of vinegar placed between his ankles as a temporary Vivaxis below him. This is necessary in order for him to receive a wave pattern with his left index finger.

If a person with X-ray or other energy conflictions attempts to test the receptors of other people, his disturbance can be detected in Z's receptors for a short period afterwards. Further he is definitely unable to receive or record a meaningful wave pattern.

The wave testing of other people requires extensive training and knowledge and is not a game to be indulged in by amateurs. We are continually striving to find methods for correcting disturbed code receptors without the necessity of receptor testing. The P.H.S. technique is the most effective substitute found yet to correct disturbed code receptors. In fact, it is a procedure that is proving superior to the tedious old methods of laboriously marking disturbed receptors. However, the ability to accurately test receptors is necessary for research. For only by testing disturbed receptors before and after channelling and observing their wave behaviour, were we able to arrive intelligently at methods which could be utilized by the average person.