Radionics

Book 2: Applied Radionics

POST OFFICE BOX 128

LAKEMONT, GEORGIA 30552

2019 Edition
2019 Edition edited by Cathie Jordan & Ed Kelly







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published in this book in no way represents or constitutes a claim that any product, system, or device manufactured or
offered by Kelly Research Technologies, Inc., nor any other scalar, radionic, psychotronic, or free energy device, can have
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professionals.

Kelly Research Technologies’ radionic instruments and accessories are intended for agricultural research only and can in
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medical or mental health care please contact a licensed professional!

Copyright 2012-2019 by Kelly Research Technologies, Inc.


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11. APPLIED RADIONICS: The Workstation

Operation of the Kelly Workstation

An Experimental Agricultural Analyzer

The Kelly Workstation is a state of the art radionic research system, with integrated analysis and
broadcast circuitry designed to allow pre-engineering of reality at the subatomic level.

The following instructions cover the basic steps for set-up and use of the Workstation and its
subsystems. This information is intended to reinforce knowledge given during a training seminar
with an experienced instructor.

Table of Contents
1. Initial Set-Up…………………………………………………………………………………………………………………………. 62
2. Accessory Set-Up……………………………………………………………………………………………..…………………… 62
3. Basic Operation: Analysis……………………………………………………………………………………………………… 64
4. Basic Operation: Broadcasting – Direct Mode…………………………………………….……………………….. 65
5. Basic Operation: Broadcasting – Timer Mode: L-Ron 10 Hour Timer (1983-2012)…..….….. 67
6. Basic Operation: Broadcasting – Timer Mode: Omron 0-300 Hour Timer (2012-Now)…….. 69
a. Configuring the Omron 0-300 Hour Timer…………………………………………………………. 69
b. Broadcasting with the Omron 0-300 Hour Timer………………………………………………. 70
7. Using the Field Detector…………………………………………….………………………………….……………………… 72
8. Using the Frequency Inputs……………………………………….……………….………………….……………………. 73
a. Using the Frequency Input – Variable Pulse Mode……………………………………….……. 73
b. Using the Frequency Input – Fixed Pulse Mode…………………………………………………. 74
9. The Integrated Electronic Potentizer………………………………………………………………………….………… 74
a. Select the Substrate and Active Ingredients………………………………………………………. 74
b. Clearing the Substrate and Active Ingredients…………………………………………………… 74
c. Using the Electronic Potentizer……………………………………………………………………………. 75
d. Follow Up and Application……………………………………………………………………………………. 76
e. Storage of Potencies……………………………………………………………………………………………. 77
10.Clearing the Instrument………………………………………………………………………………………………………… 77
11.Increasing Radionic Effectiveness…………………………………………………………………………………………. 78

61
Part 1: Initial Set-Up
For best results, set up and use the Kelly Workstation in a quiet, comfortable location that is
conducive to uninterrupted focus. This location should be free of dust or any other airborne
contaminants that could settle in the sample well or on any of the research materials at hand.
A.Plug in the Workstation by first connecting the power
cord to the connector found on the rear of the
instrument, then plugging the other end of the power
cord to a 110/120 volt household outlet.
B.Check the Fuse, which is located on the connector
panel found on the left side of the instrument, by
unscrewing the cap marked “fuse”. Use only 5 amp
fuses.
C.Ground the instrument. (optional) Many researchers
report improved success in their radionic experiments
through grounding of the instrument. A ground circuit
may be established between the instrument and the
earth through the use of the black “Aux Ground”
connecting jack found on the connector panel on the left
side of the instrument. Available at most hardware
stores, a copper grounding rod driven directly into the
earth provides the ideal connection point for a copper
grounding wire. A banana jack will allow easy
connection to the Workstation. Do not connect a
radionic grounding wire to any household fixtures: gas
lines, water lines, sewer pipes or HVAC ducting.
FAQ: While grounding the instrument can improve
performance, it is not required to achieve radionic research.

Part 2: Accessory Set-Up

The Kelly Workstation is designed for use with accessories made by KRT and third party vendors,
including external input wells, an external Phase Array Antenna/reaction plate and/or electronic
signal sources. Before turning on the power, connect any accessories:
A.External Input Wells may be used to
increase the input capacity of the
instrument. When an external input
well is utilized, samples and/or
reagents may be placed in either the
Workstation’s integrated input well or
the external input well. Signal
processing will be based upon the total
of all inputs in all wells. External wells
may be connected to either the “Aux In 1” or “Aux In 2” connections on the connector panel. If
using a Kelly small sample well, match the red and black jacks to the appropriate connectors.
If using a Large Well, either of the grey jacks may be connected to either the red or black jacks
found on the connector panel.

62
B.External Electronic Signals such as frequencies, recorded music or other electronic/digital
information may be added to any radionic broadcast through the use of the “Signal In”
connection found on the connector panel. In short, this connection is like an input well for
electronic signals. It is tied directly to the radio coil amplifier, where any external electronic
signals are fused with the information being delivered by the radionic rate banks.

Use the “headphone” jack on personal listening devices, the “front speaker” or “headphone”
jacks on a computer, or a stand-alone signal generator capable of producing a square
waveform to provide the signals of choice. An adapter cable may be required to connect a
device to the shielded “BNC” type connector.
FAQ: “BNC” stands for “Bayonet Neill-Concelman”, which describes the secure locking mechanism and
names the co-inventors.

Cassette Tape mp3 Computer Signal Generator “Signal In” BNC Connector

C.External Phase Array Antennas may be used to

further boost broadcast power. External units should be
connected by plugging in the leads with the blue
connector to the matching blue jacks found on the lower
front panel of the instrument cabinet.

Use only external Phase Array Antennas with the same or double number of phases and array
plates in order to ensure harmonic signal balance between all antennas:
Workstation: Use with:
Internal Phase Array External Phase Array Antenna
32 Phase (4 plate) 32 Phase (4 plate) 64 Phase (8 plate)
40 Phase (5 plate) 40 Phase (5 plate) 80 Phase (10 plate)
48 Phase (6 plate) 48 Phase (6 plate) 96 Phase (12 plate)
56 Phase (7 plate) 56 Phase (7 plate) --

D.External Output Wells may be used

to increase the output capacity of the
Electronic Potentizer. Large or small
sample wells may be connected to the
grey jacks marked “Aux Out”, located
next to the potentizer well on the right
side of the lower instrument panel.
Signal output to the integrated potentizer well and any
auxiliary wells will be identical. If using a Kelly large
well, the grey jacks on the instrument will match the
grey jacks found on the well. If using a small sample
well, the red and black jacks may be matched with either of the “Aux Out” grey jacks.

63
Part 3: Basic Operation: Analysis

A.Turn on the Main Power by setting the “Main

Power” toggle switch to the “On” position on the
connector panel found on the left side of the
instrument.

B.Turn on the Instrument Power by setting the

“Power” toggle switch on the upper right corner of
the upper instrument panel to the “On” position. A
green indicator lamp will illuminate to show that
power is on. If this lamp does not illuminate,
recheck the steps covered in Part 1: Inital Set-Up.
Tip: The Workstation is a free energy device that allows
analysis without electrical power. However, when using without power both power switches must still be
set to the “On” positions in order to open all circuits to the flow of energy.

C.Place the witness or sample in the input well

found in the upper center of the lower instrument
panel. Adding multiple samples and/or witnesses to
the well and any auxiliary wells allows analysis of the
combination of those representatives.

D.Set the instrument for analysis:

x Set the “Amp” switch to “Direct Mode”
x Set the “Function” switch to “Analyze”
Indicator lamps will illuminate to confirm these
selections.
E.Activate a Rate Bank or banks by turning on one or
more of the bank toggle switches found on the left
side of the upper instrument panel. A green indicator
lamp will illuminate to show each bank that has been
activated.
F. Set the rate dials to the radionic rate(s) of interest. Rate banks not being utilized should be
set to “0.00-0.00” and turned off.
Tip: Rates may be set on multiple banks during either analysis or broadcast. However, because the three
banks are wired in parallel, the information or transmission will reflect the total of all energy patterns
and/or information. For data on an individual pattern of energy, check one rate at a time.

G.Check the intensity for that rate or combination of rates by

slowly rotating the dial marked “Intensity” and lightly rubbing dry
fingertips across the surface of the reaction plate. Focus the mind
on the question at hand (“What is the strength of XYZ in sample
ABC?”). Make note of any sensations of increasing friction with the
plate, weight in the fingertips or other sensations as the intensity dial is turned. Multiple
resonance points or “sticks” of varying intensities may be sensed; typically the strongest of
these is recorded as the primary intensity for the scalar frequency being evaluated.
Tip: A dowsing pendulum suspended over the reaction plate may be utilized in place of the fingertips,
with a change in direction or increase in movement indicated as a “stick”.

64
 H.Note and record the intensity shown on the ten turn dial whose position is indicated by the
small mark found at the center edge of the windowed area on the right side of the dial. The
black numerals on the silver outer dial indicate the intensity readings from 0 to 99 for each
rotation. Each complete rotation of the dial is counted by the white numeral in the black
windowed area. The two numbers are combined to read the total intensity. The following
photos provide illustrative examples:

Dial Indicator Mark Intensity = 85 Intensity = 185 Intensity = 385

A small lever on the edge of the outer dial housing will lock the dial in position, a feature not
ordinarily utilized in radionic research.
I. Repeat the process of detecting and recording intensities for all rates of interest.

Part 4: Basic Operation: Broadcasting – Direct Mode

A.Turn on the Main Power by setting the “Main

Power” toggle switch to the “On” position on the
connector panel found on the left side of the
instrument.
B.Turn on the Instrument Power by setting the
“Power” toggle switch on the upper right corner of
the upper instrument panel to the “On” position. A
green indicator lamp will illuminate to show that
power is on. If this lamp does not illuminate,
recheck the steps covered in Part 1: Initial Set-Up.
Tip: The Workstation is a free energy device that will allow low intensity broadcasting without power in
the direct mode. However, when using without power both power switches must still be set to the “On”
positions in order to open all circuits to the flow of energy.

C.Place the witness or sample in the input well

found in the upper center of the lower instrument
panel. Adding multiple samples and/or witnesses to
the well and any auxiliary wells allows simultaneous
broadcasting back to all of elements that are represented by the witnesses in the well(s).
D.Activate a Rate Bank or banks by turning on one
or more of the bank toggle switches found on the left
side of the upper instrument panel. A green
indicator lamp will illuminate to show each bank that
has been activated.

65
E.Set the rate dials to the radionic rate(s) of interest. Rate banks not being utilized should be
set to “0.00-0.00” and turned off.
Tip: Rates may be set on multiple banks during broadcasts. However, because the three banks are wired
in parallel, the information or transmission will reflect the total of all energy patterns and/or information.
For specific information, check one rate at a time.

F. Set the instrument for direct broadcast:

x Set the “Amp” switch to “Direct Mode”
x Set the “Function” switch to “Broadcast”
Indicator lamps will illuminate to confirm these
selections.

G. Identify the broadcast time: Focus the mind on

the question at hand (“For how many minutes
should this broadcast take place in order to balance
XYZ in sample ABC, with no unintended
consequences.”) while lightly rubbing dry fingers
across the surface of the reaction plate and slowly
turning the dial marked “Intensity”. Make note of
any sensations of increasing friction with the plate, weight in the fingertips or other
sensations as the intensity dial is turned. Multiple resonance points or “sticks” of varying
intensities may be sensed; typically the strongest of these should be noted as the appropriate
broadcast time, which is read in minutes on the dial. In the event that the strongest point of
resonance is found at the maximum reading on the intensity dial, return the dial to zero and
rephrase the question, substituting “hours” or even “days” instead of “minutes”.
Tip: A dowsing pendulum suspended over the reaction plate may be utilized in place of the fingertips,
with a change in direction or increase in movement indicated as a “stick”.

H.Add any supplementary agents to the input well(s) and test for desirability. (See Part 11:
Increasing Radionic Effectiveness below.)
I. Check for overall appropriateness of the broadcast by setting the intensity dial back to
zero. Without turning the dial, ask the question, “Is this an appropriate broadcast to make?”
while rubbing the reaction plate. A stick will indicate a “yes” while a lack of stick will indicate
“no”. This step may also be completed using a pendulum or other dowsing technique.
J. Broadcast for the time indicated, then turn off the amplifier by setting the “Function” switch
back to “off”.
K.Re-check the intensity or intensities of the radionic rate(s) of interest. Set the instrument
for “Analysis” mode, then check each bank individually for results on each rate, or check
multiple banks simultaneously to learn the impact of a combined process.
Tip: Resist the impulse to continue broadcasting if the intensities are not as low or high as expected.
Utilizing the broadcast time identified earlier in this process will ensure that the organic system is not
thrown into a state of disequilibrium rather than eased into a state of balance.

L. Record the new intensity or intensities.

66
Part 5: Basic Operation: Broadcasting – Timer Mode – L-Ron 10 Hour Timer (1983-2012)
Beginning with the very first “Large Ag” Workstations, the Kelly instruments have
been equipped with 10-hour electronic timers made by L-Ron Corporation. These
timers offer a non-mechanical solution to timing that allow the operator to either
set a desired time or scan for the appropriate broadcast time directly on the timer
dial. If your Workstation is equipped with the more recent Omron HC3R 12-Hour
Timer please turn to Part 6: Basic Operation: Broadcasting – Timer Mode:
12-Hour Timer (2012-Present).

Kelly “Large Ag” Workstation Mark I Kelly “Large Ag” Workstation Mark II Kelly Workstation Mark III

A.Turn on the Main Power by setting the “Main

Power” toggle switch to the “On” position on the
connector panel found on the left side of the
instrument.

B.Turn on the Instrument Power by setting the

“Power” toggle switch on the upper right corner of the
upper instrument panel to the “On” position. A green
indicator lamp will illuminate to show that power is
on. If this lamp does not illuminate, recheck the
steps covered in Part 1: Initial Set-Up.

C.Place the witness or sample in the input well

found in the upper center of the lower instrument
panel. Adding multiple samples and/or witnesses to
the well and any auxiliary wells allows simultaneous
broadcasting back to all of elements that are
represented by the witnesses in the well(s).

D.Activate a Rate Bank or banks by turning on one

or more of the bank toggle switches found on the left
side of the upper instrument panel. A green
indicator lamp will illuminate to show each bank that
has been activated.

E.Set the rate dials to the radionic rate(s) of interest. Rate banks not being utilized should be
set to “0.00-0.00” and turned off.
Tip: Rates may be set on multiple banks during broadcasts. However, because the three banks are wired
in parallel, the information or transmission will reflect the total of all energy patterns and/or information.
For specific information, check one rate at a time.

67
F. Set the instrument for timed broadcast:
x Set the “Amp” switch to “Timer Mode”
x Set the “Function” switch to “Broadcast”
Indicator lamps will illuminate to confirm these mode
selections. A third indicator lamp above the timer dial
will also illuminate when the timer is actually on.

G.Identify the broadcast time: Focus the mind on

the question at hand (“For how long should this
broadcast take place in order to balance XYZ in
sample ABC, with no unintended consequences?”)
while lightly rubbing dry fingers across the surface of the reaction plate and slowly turning the
10-Hour Timer dial. Make note of any sensations of increasing friction with the plate, weight in
the fingertips or other sensations as the timer dial is turned. Multiple resonance points or
“sticks” may be sensed; typically the strongest of these should be noted as the appropriate
broadcast time. Leave the timer dial set to the location of the strongest stick. While the dial
will not move, the internal electronics will count down the time set and then shut off the power.

H.Add any supplementary agents to the input well(s) and test for desirability. (See Part 11:
Increasing Radionic Effectiveness below.)

I. Check for overall appropriateness of the broadcast by asking the question, “Is this an
appropriate broadcast to make?” while rubbing the reaction plate. A stick will indicate a “yes”
while a lack of stick will indicate “no”. Do not turn any dials during this process. This step may
also be completed using a pendulum or other dowsing technique.

J. The timer will end the broadcast automatically. Timer operation is complete when the
green indicator lamp found directly above the timer dial turns off. The “Timer Mode” indicator
lamp will remain illuminated until turned off by the user.
Note: The timers used in the Workstation arrive calibrated from the factory and consistently perform
accurately in all bench tests. However, once integrated with radionic processes, these timers have been
known to accelerate and decelerate without explanation from calibrated times, especially when a scanned
time has been utilized. This is common and should not be a cause for concern.

K.Re-check the intensity or intensities of the radionic rate(s) of interest. Set the instrument
for “Analysis” mode, then check each bank individually for results on each rate, or check
multiple banks simultaneously to learn the impact of a combined process.
Tip: Resist the impulse to continue broadcasting if the intensities are not as low or high as expected.
Utilizing the broadcast time identified earlier in this process will ensure that the organic system is not
thrown into a state of disequilibrium rather than eased into a state of balance.

L. Record the new intensity or intensities.

M.Reset the instrument for timed broadcast:

After a timed broadcast the integrated timer must be reset:
x Move the “Amp” switch from “Timer Mode” to “Off”. The
timer is now off and reset.
x Set the “Amp” switch back into “Timer Mode”. The timer is
now turned on.
x Leave the timer set to repeat the last time utilized, set the
dial to the next desired setting, or return to zero and scan for
the broadcast time.
Indicator lamps will illuminate to confirm these mode selections.
A third indicator lamp above the timer dial will also illuminate when the timer is actually on.

68
Part 6: Basic Operation: Broadcasting – Timer Mode: Omron Timer (2012-Now)
Following the untimely passing of L-Ron Corporation
founder Nicholas "Ron" Corrao at the age of 79, KRT
searched to locate a replacement for the timer that had
been utilized in all of the larger Kelly instruments for
the previous 30 years. The result is the Omron H3CR,
a timer that exceeded our expectations with regards to
precision, quality, and ease-of-use, as well as the ability
to utilize the dial to scan for the appropriate time to
broadcast or potentize. Like the L-Ron timer, this unit
is not mechanical and the dial does not move from
where it is set by the operator. New features include
the ability to move between four time modes and four
numerical setting modes that turn this into a 16-1 timer
with a range of as little as 1.2 seconds to as long as
300 hours without sacrificing simplicity.

Part 6a: Configuring the Omron Timer

The Omron Timer arrives configured to operate as a
12-Hour Timer, as indicated by the numbers Use in “E”
displayed in the seven small windows on the timer Mode ONLY
dial and the time unit displayed in the window at the
bottom. Any of four numerical and time mode
settings may be utilized as follows:
Numerical Mode Set: Gently turn the small plastic
screw found in the lower left corner of the timer face Numerical Time
Mode Set Mode Set
with the tip of a small Phillips head screwdriver to
cause the numbers displayed in the seven small
windows on the timer dial to rotate between these
four modes:
x 0 to 1.2 x 0 to 12
x 0 to 3 x 0 to 30
For example, changing the numerical mode on the timer shown in the photo would cause it to
operate as a 1.2 Hour Timer, a 3 Hour Timer, a 12 Hour Timer, or a 30 Hour Timer.

Time Mode Set: Gently turn the small plastic screw found in the lower right corner of the timer face
with the tip of a small Phillips head screwdriver. Turning this screw will cause the units of time
displayed in the small window at the bottom of the timer dial to rotate between these four modes:
x “sec” – Seconds x “hrs” - Hours
x “min” – Minutes x “10 hrs” – Hours x10
For example, changing the time mode on the timer shown in the photo would cause it to operate as
either a 12 Second Timer, a 12 Minute Timer, a 12 Hour Timer, or a 120 Hour Timer.

Select the combination of numerical and time modes most appropriate for the radionic broadcasts
typically conducted. For the researcher who is delivering an overall energetic balancing using a
worksheet, the timer may be ideally set to “0 to 30 minutes” since most tuning broadcasts will be in
that range. For the farmer working to detoxify the soil or attack a weed, the timer range may be
most useful when set for “0 to 300 hours” to reflect the use of long broadcasts of multiple rates,
especially when used in conjunctions with a KRT Tuning Station. Best of all, it is easy to change the
configuration of the timer as needed!

Wiring Mode: The Workstation is wired to operate in “E” mode only. Do not adjust!

69
Part 6b: Broadcasting with the Omron Timer
A. Turn on the Main Power by setting the “Main
Power” toggle switch to the “On” position on the
connector panel found on the left side of the
instrument.
B. Turn on the Instrument Power by setting the
“Power” toggle switch on the upper right corner of
the upper instrument panel to the “On” position. A
green indicator lamp will illuminate to show that
power is on. If this lamp does not illuminate,
recheck the steps covered in Part 1: Initial Set-Up.
C. Place the witness or sample in the input well
found in the upper center of the lower instrument
panel. Adding multiple samples and/or witnesses to
the well and any auxiliary wells allows simultaneous
broadcasting back to all of elements that are
represented by the witnesses in the well(s).
D. Activate a Rate Bank or banks by turning on one
or more of the bank toggle switches found on the left
side of the upper instrument panel. A green
indicator lamp will illuminate to show each bank that
has been activated.
E. Set the rate dials to the radionic rate(s) of interest. Rate banks not being utilized should be
set to “0.00-0.00” and turned off.
Tip: Rates may be set on multiple banks during broadcasts. However, because the three banks are wired
in parallel, the information or transmission will reflect the total of all energy patterns and/or information.
For specific information, check one rate at a time.

F. Identify the broadcast time: Focus the

mind on the question at hand (“For how
long should this broadcast take place in
order to balance XYZ in sample ABC, with
no unintended consequences?”) while
lightly rubbing dry fingers across the
surface of the reaction plate and slowly
turning the dial on the timer. Make note of
any sensations of increasing friction with
the plate, weight in the fingertips or other
sensations as the timer dial is turned. Timer On
Multiple resonance points or “sticks” may
be sensed; typically the strongest of these
should be noted as the appropriate
broadcast time. Leave the timer dial set to
the location of the strongest stick. While
the dial will not move, the electron timer
will accurately count down the time and
then turn off the unit.
G. Set the instrument for timed broadcast:
x Set the “Amp” switch to “Timer Mode”
Timer Off
x Set the “Function” switch to “Broadcast”
Indicator lamps will illuminate to confirm the Amp and Function mode selections.

70

 Timer On: When the timer is active and on the lamp marked “OUT” will be lit steady red and
the lamp marked “POWER” will be lit green and flashing. At this time the flow of power to the
amplifier is being controlled by the timer.
Timer Off: When the timer is off the “OUT” lamp is turned off and the “POWER” lamp is lit
green and steady. At this time the flow of power has been turned off to the amplifier by the
timer.
Note: For the amplifier to be turned on the operator must also set the Function switch into the
“Broadcast” mode. The timer is a useful tool, but the responsibility for the broadcast always rests with
the operator!

H. Add any supplementary agents to the input well(s) and test for desirability. (See Part 11:
Increasing Radionic Effectiveness below.)
I. Check for overall appropriateness of the broadcast by asking the question, “Is this an
appropriate broadcast to make?” while rubbing the reaction plate. A stick will indicate a “yes”
while a lack of stick will indicate “no”. Do not turn any dials during this process. This step may
also be completed using a pendulum or other dowsing technique.
J. The timer will end the broadcast automatically. Timer operation is complete when the
“OUT” lamp is turned off and the “POWER” lamp is lit green and steady. At this time the flow of
power has been turned off to the amplifier by the timer. Note that the “Timer Mode” indicator
lamp will remain illuminated until turned off by the user.
K. Re-check the intensity or intensities of the radionic rate(s) of interest. Set the instrument
for “Analysis” mode, then check each bank individually for results on each rate, or check
multiple banks simultaneously to learn the impact of a combined process.
Tip: Resist the impulse to continue broadcasting if the intensities are not as low or high as expected.
Utilizing the broadcast time identified earlier in this process will ensure that the organic system is not
thrown into a state of disequilibrium rather than eased into a state of balance.

L. Record the new intensity or intensities.

M. Reset the instrument for timed broadcast:
After a timed broadcast the integrated timer must be reset, as
follows:
x Move the “Amp” switch from “Timer Mode” to “Off”. The timer is
now turned off and reset.
x Set the “Amp” switch back into “Timer Mode”. The timer is now
turned on and active.
x Leave the timer dial set to repeat the last time utilized, set the
timer dial to the next desired setting, or return the timer dial to
zero and scan for the next broadcast time using the steps
described above.

Mode indicator lamps will illuminate to confirm these mode

selections. As before, on the timer the lamp marked “OUT” will be lit
steady red and the lamp marked “POWER” will be lit green and
flashing. At this time the flow of power to the amplifier is being
controlled by the timer.

71

Part 7: Using the Field Detector
The Field Detector circuit was designed to allow
researchers to verify that no interference fields are
blocking the energetic broadcast generated by the radionic
instrument. Interference may come from the planetary
energy grid (ley lines and/or energy vortices),
underground water systems or other scalar energy
devices.
The “Scalar Potential” describes the creation of an energy
field that can bring partial polarization to the usually-
random energy of the virtual particle flux that is
continuously being created and destroyed at the heart of
every atomic nucleus. Like concrete flowing into a mold,
the radionic broadcast provides a blueprint around which this limitless energy can be oriented in
order to create the researcher’s desired future reality. Likewise, the “Ø Field” (or “Null Field”) refers
to the fact that the sum of the vectors created by radionic broadcasts are balanced, presenting a
summation of zero even while continuous compression and expansion serves as the pumping
mechanism for the broadcast.

A.Turn on the Main Power by setting the “Main

Power” toggle switch to the “On” position on the
connector panel found on the left side of the
instrument.
B.Turn on the Detector by setting the “Detector”
toggle switch found on the right side of the upper
instrument panel to the “On” position. An indicator
lamp will illuminate to show that power is on.
C.Scan the scalar field by rotating the knob marked
“Field Scan” in either direction. The range of this
knob is five revolutions, so the knob may be rotated
multiple complete turns before stopping. If a scalar
field is detected the needles in the DC microampere
gauges will show pulsations and movement. If the
needles remain pegged to the far right and cannot be
centered an interference field is indicated. Try
physically relocating the instrument to another part
of the room. In the strongest interference fields the
detector needles will swing to the right even if no
power is supplied to the Workstation.
D.Track the broadcast by carefully adjusting the
knob until the needles are balanced within the range
of the gauges, where a rhythmic pulsing will usually be observed. Over the course of a radionic
broadcast the needles will usually move slowly toward the “0” positions on these gauges.
FAQ: The “Scalar Potential” and “Ø Field” gauges should move in unison, essentially providing system
redundancy for this circuit. As such, maintenance may be required in the event that one gauge responds
but the other does not.

FAQ: Information in this section was drawn from Col. Tom Bearden’s 1988 book, AIDS: Biological
Warfare. For copies of this book and more information about the physics of radionic please visit Col.
Bearden’s web site at: www.cheniere.org.

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Part 8: Using the Frequency Inputs
This subsystem allows the radionic researcher to instantly
integrate one of four traditional (non-scalar) Extreme Low
Frequency (ELF) waveforms into their radionic broadcasts
in order to reduce broadcast times and/or enhance
effectiveness. Researchers may utilize either pulse or
fixed modes, or both at once. Frequencies generated by
this subsystem are utilized in two ways:
x Internal Transmission to the radio coil assembly that delivers the first phase of
amplification for the scalar signal inside the silver Sephorah geomantic multiplier, thus
ensuring seamless integration with the radionic broadcast. External Electronic Signals
delivered through the “Signal In” connector (see Part 2: Accessory Set-Up, Section D.)
are processed in the exact same way.
x External broadcast through a non-audio coil antenna found on
the Workstation motherboard. This antenna generates extreme low
frequency waveforms identical to those produced by BETAR Mood-O-
Matic: RELAX Mood Tone Generators, which naturally induce
brainwave activity in the range associated with the alpha state –
“calm and relaxed”. Because the Frequency Input subsystem may be
used independently of radionic broadcasts, this feature allows
researchers to enjoy the RELAX Mood Tone at any time.

Part 8a: Using the Frequency Input – Variable Pulse Mode

In Variable Pulse mode the operator may select from one of four pre-set frequencies noted on the
instrument panel as measured in hertz – cycles per second.
A.Turn on the Main Power by setting the “Main Power” toggle
switch to the “On” position on the connector panel found on the
left side of the instrument.
B.Turn on pulse frequency input by setting the “Pulse” toggle
switch to the “On” position. A yellow indicator lamp will
illuminate to show that power is on. Workstation Mk III: 2009-2012
C.Select a frequency using the four-position knob. Available
frequencies are:
x 7.83 Hz: The Earth Tone — First predicted by the German
physicist W. O. Schumann in 1952, this is the frequency is
the naturally-occurring standing waveform that exists
between the surface of the planet and the ionosphere – an
electrically charged layer of the atmosphere. All of the life
on Earth has experienced this “planetary hum”. This is the
“RELAX” frequency on BETAR systems.
x 8.0 Hz: Believed to facilitate genetic communication
Workstation Mk III: 2013-Now
between the DNA and RNA of plants by researcher Andreja
Puharich, thus useful for eliciting the maximum growth
response from plants.
x 9.0 Hz: Experimental work has suggested a positive
relationship between this frequency in recovery of plants
stressed by toxins or physical trauma due to weather or
other conditions.
x 10.0 Hz: Commonly yields reduced broadcast times when
integrated with agricultural balancing. This is the “CALM”
frequency on BETAR systems.
D.Test for desirability before proceeding with the broadcast. (See Part 11: Increasing
Radionic Effectiveness below.)

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Part 8b: Using the Frequency Input – Fixed Pulse Mode
Only the Earth Tone – 7.83 cycles per second – is delivered by Fixed Pulse mode. This allows the
Earth Tone to be easily added to either one of the Variable Pulse frequencies or via the “Signal In”
connection found on the connector panel.
A.Turn on the Main Power by setting the “Main
Power” toggle switch to the “On” position on the
connector panel found on the left side of the
instrument.
B.Turn on fixed frequency input by setting the
“Fixed” toggle switch to the “On” position. An indicator lamp will illuminate to show that power
is on. The 7.83 Hz Earth Tone is the only setting available in the “Fixed” mode.
Workstation Mk III: 2009-2012 Workstation Mk III: 2013-Now

Part 9: The Integrated Electronic Potentizer

This subsystem allows electronic imprint of any subtle
energy signature into either a liquid or solid substrate at
varying and/or stacked levels of potency.

A.Select the Substrates and Active Ingredients

Care must be taken to ensure all elements and their
containers are contamination free.
x If the intended substrate or the “active
ingredient” is a solid object, inspect the item for
obvious surface contamination. If necessary,
wash or wipe the item with warm water and a mild soap, then dry with a clean cloth.
x If the substrate or the “active ingredient” is a liquid or other item that will be contained in a
vial, test tube or other container, be sure the containers, caps and labels are clean and free
of contaminants.
x If either the substrate or the “active ingredient” is a sample/witness drawn from a larger
supply, be certain to use “clean” techniques when obtaining that sample.
x As with any radionic processes, be certain that all objects to be placed in an input well are
clean and free of fingerprints.
B.Clearing Substrates and Active Ingredients
Substrates and “active ingredients” to be potentized should be deprogrammed of noxious,
contaminating or other energy patterns that conflict with the mission at hand as defined by the
researcher. These steps should be utilized to clear these materials before potentizing.
a. Analyze the substrate for chemical [49.25-49.25] and metal [48.75-48.75] poisons. (See
Part 3: Basic Operation: Analysis) These two rates cover a wide range of possible
contaminants. Do not hesitate to use others, however, if other problems are suspect.
b. Balance out any patterns of energy with an intensity reading in excess of 50. (See Part 4:
Basic Operation: Broadcasting – Direct Mode or Part 5/6: Basic Operation:
Broadcasting – Timer Modes)
c. After balancing is complete, take a second reading on the rates balanced. There may be a
slight delay of time between balancing and the radionically-measured response on the
subtle field of the subject. If high reading of poisons or toxins recur, there may be too much
contaminant in the physical level for this substance to provide a desirable energetic
substrate.

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 C.Using the Electronic Potentizer
After preparation of the substrate and “active ingredient” material(s) is complete:
a. Turn on the Main Power by setting the “Main
Power” toggle switch to the “On” position on the
connector panel found on the left side of the
instrument.
b. Turn on the Instrument Power by setting the
“Power” toggle switch on the upper right corner
of the upper instrument panel to the “On”
position. A green indicator lamp will illuminate to
show that power is on. If this lamp does not
illuminate, recheck the steps covered in Part 1:
Initial Set-Up.
c. Set the instrument for potentizer use:
x Set the “Amp” switch to “Off”
x Set the “Function” switch to “Analyze”
The “Analyze” indicator lamp will illuminate to
confirm this selection.
d. Place the neutral substrate in the potentizer
well
e. Identify the energy patterns to be imprinted into the substrate using one of the
following methods:
x Sample Only: If the substrate is to be potentized directly from a physical sample or
specimen, the sample or specimen should be placed in the Workstation’s input well, at
least one rate bank must be turned on, with the rate dials on that bank set to [0.00-
100.00].
x Radionic Rate Only: If the substrate is to be imprinted with a known radionic
frequency, turn on the rate banks to be utilized and set the rate dials accordingly. The
radionic analyzer’s main input well will remain empty.
x Combined Imprint: A combination of radionic
frequencies and physical samples may also be
used by placing an original sample in the
Workstation’s input well and setting one or
more rate banks to the radionic rate(s) of
interest.
f. Turn on the Potentizer by setting the
“Potentizer” toggle switch found directly under the
Potentizer Well to the “On” position. A green
indicator lamp will illuminate to show that power is
on.
g. Set the phase mode to “In Phase” or “Reverse
Phase” by setting the “Mode” toggle switch to the
mode of choice. A yellow indicator lamp will
illuminate to show the mode that has been
selected. Verify that the correct selection has been
made by testing for a stick on the reaction
plate/antenna. Move the “Mode” switch back and
forth between the “In Phase”, “Off”, and “Reverse
Phase” positions to find where the reaction is felt
while focusing the mind on the question at hand.

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 Note: Typically the “In Phase” mode is used to make an energetic copy of a sample or radionic rate,
which will serve to add or reinforce that energy pattern. In contrast, the “Reverse Phase” mode is
used to create an energetic opposite to the radionic rate or sample, which will act as a remedy or
serve to reduce an energy pattern. While these rules of thumb are usually true, the correct mode is
always the one that delivers the biggest resonance on the reaction plate.

h. Set the potency dial by turning the knob marked “Potency”. If a known setting is desired,
turn the knob directly to that setting. However, if the desired potency is unknown, slowly
turn the knob marked “Potency” while lightly rubbing dry fingers across the surface of the
reaction plate. Stop when a reaction is felt, then fine tune the setting of the dial until the
strongest resonance point is found.
i. Choose “Direct” or “Timer” mode by setting
the “Amp” switch accordingly. Set the broadcast
time on your timer as discussed in either Part
5/6: Basic Operation: Broadcasting – Timer
Modes. The key difference – when using the
Potentizer the Function switch will be set to
“Analysis”, as indicated by a yellow lamp.
x Setting a Known Time: Set the timer dial
directly to the desired time on the dial.
x Scanning for the Imprint Time: Focus the mind on the question at hand (“For how
long should this imprinting process take place in order to achieve the desired effect,
with no unintended consequences?”) while lightly rubbing dry fingers across the surface
of the reaction plate and slowly turning the timer dial. Make note of any sensations of
increasing friction with the plate, weight in the fingertips or other sensations as the
timer dial is turned. Multiple resonance points or “sticks” may be sensed; typically the
strongest of these should be noted as the appropriate imprint time. Leave the timer dial
set to the location of the strongest stick found.
Note: Both the L-Ron and Omron timers are electronic timers and have neither a “ratcheting” feel nor
do they turn themselves back to zero. They remain set until moved again by the operator.

D. Recheck for additional potency potential by the setting the “Amp” switch back to “Off”,
then repeat steps “h” through “j” of this section. If no additional reaction is detected during
step “h”, maximum imprint has been achieved for this pattern of information at this time.
Tip: Typically an “original” sample may be used to imprint a neutral substrate as many times as
desired. However, a sample that was created through an imprinting process (such as a homeopathic
remedy) will have its energetic value depleted each time it is used to imprint a neutral substrate. If
in doubt, check the overall vitality of the sample before and after electronic potentization by utilizing
the Workstation in Analysis mode. (See Part 3: Basic Operation: Analysis)

Tip: Multiple energy patterns may be imprinted into the same substrate by repeating steps “a”
through “i” above.

D. Follow Up and Application

Before utilizing the new potency it is essential that a final check be made to ensure that the
general vitality of the subject crop or animal is going to be impacted as originally intended.
a. Check the general vitality of the crop or animal using the Analysis mode.
b. Add the new potency to the input well with the witness for the crop or animal and recheck
general vitality.
x If the potency was designed to enhance the energetic strength of the crop or animal,
the general vitality of the potency and the witness should be higher.
x If the potency was designed to reduce or suppress an organism, the general vitality of
the potency and the witness should be lower.

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 These steps not only ensure that the outcome matches the original intent of the trained
operator, but also serves as a crosscheck against the possibility of contamination in the process
of creating the potency.

E. Storage of Potencies
The shelf life of most potentized substances is limited since the imprint may fade from the
substrate over time, especially if the potency is regularly subject to external electromagnetic
fields or direct sunlight. Shelf life may be prolonged by storing the potency in a cool, dark
place.
The type of substrate utilized may also impact energy pattern retention. Distilled water is a
good substrate but only for the short term. The addition of a small amount of brandy may help
retain the energy imprint for a longer period of time in certain circumstances – researchers
should dowse to test the impact on potency longevity and to ensure that the additive does not
reduce potency effectiveness.
Finally, be sure that potencies and substrate materials are not stored near highly toxic
chemicals or compounds such as cleaning supplies, agricultural additives or petroleum
products.

Note: General information on potentizing and potencies was drawn from the article Potentizing, found in
Volume XVI, Issue I of Interdimensional News. Source material for that article included: Radionics, Reality &
Man; Experimental principles and procedures of radionics by George L. Kuepper (PO Box 151, Goshen, AR
72735).

Part 10: Clearing the Instrument

The Workstation is equipped with an instrument clearing circuit that clears the radionic instrument of
residual energy patterns. This subsystem eliminates the need for demagnetizers and/or other
techniques for instrument clearing.

B.Turn on the Main Power by setting the “Main

Power” toggle switch to the “On” position on the
connector panel found on the left side of the
instrument.
C.Turn on the Instrument Power by setting the
“Power” toggle switch on the upper right corner of
the upper instrument panel to the “On” position. A
green indicator lamp will illuminate to show that
power is on. If this lamp does not illuminate,
recheck the steps covered in Part 1: Initial Set-Up.
D.Remove all witnesses and samples from the input well, potentizing well and any auxiliary
wells. Failure to do so may result in erasure of or damage to the energetic patterns stored in
those witnesses and/or samples.
E.Depress the Instrument Reset Button found at
the upper left corner of the lower instrument panel,
directly above the 10-Hour Timer. A red indicator
lamp will illuminate, confirming activation of the
clearing circuit. Typically a noticeable “click” and
buzz will be heard coming from the relay that controls the clearing coils. This button is spring
loaded and will release when pressure is removed from the button. To avoid burning out the
relay, do not activate the instrument reset circuit for longer than 5 seconds at a time.

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Part 11: Increasing Radionic Effectiveness
Supplementary agents may be used to increase the effectiveness of balancing transmissions.
Desirability and suitability of a supplementary agent should always be tested in order to ensure that
the expected benefits are achieved. This is especially the case when revisiting a previous
transmission program; the supplement that was beneficial on previous occasions may or may not be
desirable on this one.
x Addition of known reagents: Reagents may be
added to the sample well for capture of their
underlying energy signatures and vibratory
properties. Possible examples include soil additives,
herbal compounds, minerals, chemicals, homeopathic
potencies, colors or practically anything else from
any modality. Reagents should be contained in clean
glassware to eliminate the possibility of
contamination.
x Addition of internal electromagnetic frequencies: See Part 8: Using the Frequency
Input for more information.
x Addition of external electromagnetic frequencies: Music, frequencies from a traditional
electromagnetic signal generator, or any other information stored in an electronic form may be
integrated into any radionic broadcast through the use of the “Signal In” connection found on
the connector panel found on the left side of the instrument. See Part 2: Accessory Set-Up
for more information.
x Addition of complementary scalar frequencies: Any unused rate banks may be utilized to
locate an additional scalar frequency that supports the primary objective(s). This may be a
known rate or one that is cold scanned specifically in support of the experiment.
Methods for testing desirability and suitability include:
x Having established an intensity reading for the primary scalar frequency during analysis, add
the supplementary agent to the well, “Signal In” port, or other bank(s) of the instrument.
Then, with the instrument set for analysis, recheck intensity. Compare the new intensity to
the old, noting whether the desired outcome of either strengthening or diminishing of the
primary scalar frequency was indicated after introduction of the supplementary agent.
x After adding the supplementary agents, recheck broadcast time using the intensity dial in
direct mode or the timer dial in timer mode. If the indicated broadcast time goes down and/or
a much stronger stick is noted on the reaction plate, the agents are desirable and suitable. If
broadcast time increases and/or the reaction on the plate grows weaker, the supplementary
elements are not appropriate for the situation at hand and should be removed before
broadcasting.
Tip: The testing methods outlined can be used to test the suitability and desirability of any product or
additive the farmer may be offered, and is easily one of the most important features of all Kelly Analyzers.
Place a sample or witness of the plant in the well, check intensity of General Vitality (GV = 9.00-49.00), add a
sample of the proposed additive as a reagent, then recheck intensity. If GV intensity went up, the additive
should be beneficial to the plant!

78