15
The State of the Art
On 30 November and 1 December 1983 a symposium was held in Leesburg,
Virginia, on 'Applications of Anomalous Phenomena'. It was organized
by Kaman Tempo, a division of the Kaman Sciences 'think-tank'
in Santa Barbara, California, and its stated purpose was 'to provide
a venue where outside-of-government researchers could present
government managers and scientists with details of their research
and an assessment of the potential of applications of this research'.
There were nineteen speakers, several of them heads of major university
departments, and the guests were described as 'senior scientists
and civilian and military managers'. No guest list was published.
In all countries meetings are frequently held at which scientists
brief members of governments and intelligence communities on recent
developments in their fields. This one was somewhat unusual. Its
purpose, in the plain language of the host, Dr Scott Jones of
Kaman Tempo, was: 'to bring a group of senior researchers to Washington
to share their assessments of where we are in 1983 in ability
to apply psychic phenomena, and what they project the 1990 position
to be'.
Subjects discussed ranged from telepathy, clairvoyance, precognition
and psychokinesis to 'human/equipment interaction systems' (i.e.
people affecting computers) and 'the continuity of life'. There
was also a discussion of the military applications of 'anomalous
phenomena'. To fly nineteen people from all parts of the country
and put them up for two or three days must have cost a good deal,
and it should be noted that they were not asked to discuss the
possible existence of psychic phenomena, but to describe
what was being done with them.
No mention was made of Geller in the published Proceedings of
the Leesburg symposium, but there was plenty of discussion of
almost everything he has ever claimed to do, from bending spoons
and reading minds to finding objects and missing persons, locating
natural resources and making computers go wrong. I will summarize
it here in two sections:
1 Anomalous mental phenomena: telepathy, clairvoyance, precognition
and remote sensing (dowsing).
2 Anomalous physical phenomena: psychokinesis, or interactions
between mind and matter on all levels from the microscopic to
the macroscopic.
The first type of mental phenomena discussed was clairvoyance,
or 'remote viewing' as they prefer to call it at SRI International,
where Project Scanate got under way on 29 May 1973. The experimenters
on that occasion were Harold Puthoff and Russell Targ, the two
laser physicists who had begun to look into anomalous matters
the previous year with Uri Geller. Their subject was a New Yorker
named Ingo Swann, an artist and writer by profession who was widely
read in parapsychology and had plenty of ideas of his own as to
how his abilities should be tested. He deserves the credit for
launching Project Scanate in the first place, for it was his idea
to try to obtain useful information at long distance - any distance
- with nothing more to go on than the geographical co-ordinates
of the site. By scanning those co-ordinates (hence the word Scanate)
he hoped to provide a description more detailed than any available
map of the site in question would show.
Swann did not go into a trance, beat drums, or jump into an isolation
tank. He simply made himself comfortable, lit a cigar, took a
sip of coffee and began to reel off very precise descriptions
of locations thousands of miles away about which Puthoff and Targ
knew nothing except their exact longitude and latitude. One of
these, of which Swann drew an accurate map, was the remote Pacific
island of Kerguelen, site of what is officially described as a
weather research centre. It is in fact the site of a Soviet missile-tracking
installation.
The co-ordinates for Project Scanate, in which six other subjects
later took part, were provided by a source identified by reporter
Ron McRae as a case officer from the Central Intelligence Agency
who had been assigned to check out the psychic scene. In his book
Mind Wars (1984), McRae describes how the agent later took
part himself in a Scanate test as a subject, and found his impressions
to be as accurate as those of Swann and the others. His reaction,
after three successful runs, was: 'My God, it really works!'
More than a hundred tests were carried out during the life of
Project Scanate, which ran for two years. Targets chosen by the
CIA, in association with the National Security Agency, included
a number of very sensitive military locations in the Soviet Union.
Descriptions of these provided by Scanate subjects were later
confirmed, in some cases very precisely, by satellite observations.
Other targets selected were nearer home: one was an installation
in the Washington area of which the subject provided not only
a general description, but such fine details as contents of locked
file cabinets.
Summarizing the SRI research in remote viewing, Puthoff pointed
out that several other laboratory teams had successfully replicated
it, notably the Princeton University group headed by Dr Robert
G. Jahn, dean of its School of Engineering and Applied Sciences.
He had been particularly successful in what he described as 'precognitive
remote perception'.
'The percipient', Jahn explained, 'performs his perception and
fills out his check sheet hours, and in some cases even days,
before the target is visited by the agent - indeed, in most cases,
before the target has even been selected.' What passed through
the minds of some of the military members of his audience when
he told them that has not been recorded.
There have been some intriguing spin-offs from the work at SRI
and Princeton. One is that it has been found that almost anybody
can do remote viewing, and another is that it is possible to get
better at it, like most other things, by practising and learning
to avoid simple mistakes. The most common of these is trying too
hard to interpret what is picked up by the viewer in the form
of shapes. As Puthoff explained during his presentation: 'A viewer
will say, "I see one of those things that, you know, flies
around and has got wings, but isn't a bird. It comes out of a
worm, but I can't think of the name of it."' Told it sounds
rather like a butterfly, the viewer agrees at once.
There are some striking similarities between the findings of the
remote viewing researchers and those of the scientists who pioneered
the study of the workings of our two brain hemispheres. Roger
Sperry, who won a Nobel Prize for his split-brain research, found
that when people had their brain hemispheres forcibly separated
in order to suppress major afflictions of epilepsy, their two
brain-halves responded to external information in quite different
ways. Using only their left hemispheres, they could describe things
in words, but they could not identify them by shape or touch.
Using only their right hemispheres, they could recognize shapes
and general impressions, but could not put names to them.
It is quite wrong to assume, as some have, that normal people
with intact brains make use of one half independently of the other.
Our brains are designed to operate as single integrated entities.
All the same, it is common experience that we all have two modes
of thinking, one logical and analytical, the other intuitive.
In my book If This Be Magic (1985) I suggested calling
them left-mind and right-mind modes for convenience, and pointed
out that while the normal brain must make full use of both, there
are times when one is a hindrance rather than a help. We often
feel our intuitions contradicting our sense of logic, for example.
There are also times when we suppress an intuition (or, more often,
somebody else's intuition), act logically, and find we have made
a mistake and that it was the intuitive channel, or right mind,
that picked up the correct information.
This is precisely what has been found to happen again and again
during remote viewing experiments. Some viewers could perceive
targets with remarkable accuracy, but they would describe them
in words or on paper quite wrongly because of what Ingo Swann
called 'analytical overlay', or what I would call left-mind swamping
of the right-mind channel.
One way round this problem is to use more than one viewer at a
time, and this was the approach developed by Stephan Schwartz
and his Mobius Group, based in Los Angeles. He assembled a team
of clairvoyants of widely differing backgrounds, including a photographer,
an investment banker, a retired hunting guide and a house wife,
and he soon found that two brains were better than one in the
psychic detection business, while three were better still. On
some projects he used as many as eleven.
He described one of his most successful assignments at the Leesburg
symposium. He had been approached by a district attorney from
Lancaster County, Pennsylvania, to see if he could help on a case
of a missing fourteen-year-old girl. He was given a photograph
of the girl, but no further information except that she had disappeared.
Having a daughter of his own of the same age, Schwartz felt strongly
motivated to help, but was only able to reach two of his pool
of clairvoyants on this occasion.
Both of them announced that the girl was dead. One said that she
had been struck on the head, the other that she had been suffocated.
Both thought that there had been a sexual assault, and both agreed
that the killer was a man known to the girl. All of these could
be said to be reasonable guesses for a case of this kind. However,
the two Mobius psychics went on to build up a picture of events
that was detailed enough to persuade the police to search the
area they described.
'The description of the area where the body was found', Schwartz
reported, 'was perfect. So they found the body.'
A man was later tried and convicted. He had been under suspicion,
but without a body there was little the police could do. With
the help of Schwartz's team, which the police were good enough
to acknowledge in writing, they found the body and solved the
case. The girl, incidentally, had been both struck on the head
and suffocated.
Next to describe progress in the field of psychic detection was
Dr Karlis Osis, research director of the American Society for
Psychical Research in New York. While Uri Geller was working on
the Son of Sam case, as he has described in this book, Osis was
doing the same independently using a group of six. It was one
of his most frustrating cases, for five of the group produced
no useful information at all, while the sixth provided specific
details that, looked at with hindsight, could have led to an early
arrest if they had been co-ordinated with Geller's information
and acted upon. She stated that the killer was an employee of
a certain post office, and even provided part of his car licence-plate
number.
Osis tried to follow up the post office lead, but was denied access
to staff records. Yet he remained optimistic about the potential
application of psychic sensing to the detection of criminals.
'We know what to do, which hypotheses to test, how to optimize
procedures, select and train talented persons, and what equipment
and software are necessary to facilitate our efforts,' he told
his audience at Leesburg. 'When methods of applying ESP become
operational, there will be no walls for the criminals to hide
behind.' All that was now needed, he concluded, was 'a will to
proceed'.
I came across one example of such a will myself at about this
time. One day, I was doing some reading in the library of the
Society for Psychical Research in London when a young woman police
cadet turned up, asking if we could provide her with source material
for her research project: the use of psychics in police work.
I hope that, by now, all police college libraries have a copy
of W. S. Hibbard and R. W. Worring's Psychic Criminology: an
operations manual for using psychics in criminal investigations,
published in 1982 by Charles C. Thomas of Springfield, Illinois.
I have also met a member of the Royal Canadian Mounted Police,
together with a lady who, he assured me, had been able to provide
him with accurate and useful information concerning major crimes,
including murder. She had never solved a case on her own, he added,
but he reckoned that psychics had a useful part to play as just
one of several types of specialist who can contribute to the solution
of crimes.
A will to proceed is to be found here and there.
The 'civilian and military managers' who spent the weekend at
Leesburg must have concluded that anomalous phenomena of the mental
kind were not only quite common and potentially very useful, but
not all that difficult to induce. If any of them went on to look
into the history of research in telepathy and clairvoyance, they
would have found no shortage of textbooks in the libraries in
which all the basic rules are spelled out in plain language. Upton
Sinclair's Mental Radio (1930) and Rene Warcollier's Mind
to Mind (1948) would have provided enough teaching material
for a trial course in applied telepathy for civil or military
purposes. This, they may have decided, is something we can work
with.
Psychokinesis, or anomalous physical phenomena, is an altogether
different matter. Nobody is quite sure what all the rules are,
and its unpredictable nature has made it something that many scientists
would rather not allow into their well-ordered laboratories, as
the following example illustrates.
Uri Geller was not the first person in whose presence expensive
equipment began to act strangely on the SRI premises. That honour
belongs to Ingo Swann, and the experiment in which he was involved
was more scientifically acceptable than the incident with Geller
and the DARPA computer, because Swann did exactly what he was
asked to do. The scene was the basement of the Varian Physics
Building at Stanford University (of which SRI International is
now independent) and the scientist in charge of the experiment
was Harold Puthoff. It was June 1972, and Russell Targ had not
yet joined him for the Geller research.
The first thing Puthoff asked Swann to do was to pit his wits
against a machine that had been designed specifically to be impervious
to external influences of any kind except those it was supposed
to measure: extremely weak magnetic fields. It was known as a
Squid, or superconducting magnetometer, and it was buried under
the concrete floor. Swann's own version of what happened was given
at a lecture to the Society for Psychical Research in London in
April 1978, and is hitherto unpublished. It is not only very amusing,
but it gives a good idea of the psychological conditions needed
for successful experiments in psychokinesis. It also gives some
idea of the problems these tend to cause.
When Swann learned that the thing he was supposed to influence
was out of sight under a slab of concrete, he felt he had been
tricked. His first impulse was to thump Puthoff in the face and
fly home to New York. Then he thought: If it doesn't work, I'm
finished, but if it does, it might be interesting. So, having
worked himself into 'a real fizz', as he put it, he asked icily
what he had to do.
'Float down there and interfere with the magnetic field,' said
Puthoff, explaining that this would show up on the chart recorder
that had already been running normally for an hour, showing a
steady trace on the paper.
Swann set to work. Earlier, he had demonstrated his ability to
travel 'out of the body' in a series of well-observed experiments
in New York, but this was the first time he had been asked to
perform physical work on one of his astral trips.
'I don't know what I did,' he said, 'except that I knew I was
going to get these guys if it was the last thing I did.' He then
startled the three scientists present, who included the designer
of the Squid, by announcing that he could actually see the workings
of the instrument. He promptly made a sketch to prove it.
'Oh my God,' said one of the scientists. 'That's the thing I just
took out a patent on. Nobody is supposed to know about that.'
Then followed a period in which 'the frequency of the oscillation
doubled for about thirty seconds', as Puthoff described it. This
is plainly visible on the chart recording published in Mind-Reach,
the section in question being signed by Swann, Puthoff and
physicist Dr Martin J. Lee.
There was some nervous laughter. Swann asked if he had done anything
convincing.
'Well, yes,' he was told. 'If you can do it again.' Psychics are
always being told this, and it understandably annoys them.
'Let's get this straight,' said Swann through clenched teeth.
'If I do it again, you'll have to say I really did it?'
The designer of the Squid, Dr Arthur Hebard, suggested that there
might be something wrong with his machine, but agreed he would
be impressed if Swann could stop the signal altogether.
Five seconds or so later either the magnetometer or the chart
recorder - it was not possible to establish which - entered a
period of mechanical brain-death that lasted for three-quarters
of a minute. Instead of moving up and down in a steady and symmetrical
sine-wave pattern, the recorder's pen ran in a straight line.
One of the observers went into a compulsive nervous laugh, and
Swann himself began to giggle. 'I knew I had them,' he recalled.
All 'they' wanted to know, though was: could he do it again?
With commendable patience, Swann tried but failed. 'I'd achieved
what I wanted,' he said, 'which was to teach them a lesson.' Having
done so, he found his psychic powers had 'receded' from him. He
remarked that his best results were always obtained when he was
trying to get his own back on his investigators.
Puthoff noted that the forty-five-second period of flat chart
trace coincided exactly with the time during which Swann was trying
to do what he had been asked. He then distracted Swann's attention
by discussing something else for a few minutes, during which the
sine-wave returned to its normal shape and stayed put. However,
when he steered the conversation back to the magnetometer, the
chart instantly showed a most anomalous burst of high-frequency
activity. Then, after the experiment was over, the machine continued
to run normally in the presence of its inventor for a further
hour.
Ten years later, there had been a total of 281 laboratory experiments
in psychokinesis. Much of the best work came from SRI, where Puthoff
and Targ were joined in 1976 by nuclear physicist Dr Edwin C.
May, and from Robert Jahn's engineering department at Princeton.
As both May and Jahn reported to their audience at Leesburg, there
had been much progress since the early days in which star subjects
such as Geller and Swann had threatened the well-being of expensive
pieces of modern technology, not to mention that of their owners
and designers. The trend now was to use specially designed random
number generators (RNGs) that enabled physicists to study something
with which they felt more at home: the decay of a radioactive
substance. It was known that a chunk of rock of a certain composition
would decay to emit a stream of particles that could be made to
switch on a light or generate a digit, but there was no known
way of predicting exactly when the machine would choose 0 or 1,
or ON or OFF.
Scientists reckoned that if a mind could bend a spoon it should
be able to control the movement of a single atomic particle, which
could easily be measured and recorded. The pioneer in this field
was Dr Helmut Schmidt, a physicist with Boeing in Seattle, who
published his first results in 1969, and before long the RNG replaced
the parapsychologists' playing cards and dice as the standard
apparatus for testing PK.
The Princeton group carried out a series of experiments, some
running for weeks or even months and using eight different operators
as subjects. Some of them were able to shift the scoring rate
in either direction on request, to register what Jahn called PK-plus
or PK-minus, and the overall result of the series was statistically
highly significant. There was one probability in about 10,000
that it was due to chance alone. Some of Edwin May's subjects
at SRI were able to do even better than that, and he too was able
to present results for which pure chance seemed an unconvincing
explanation.
Wait a minute, some of the military and civilian managers must
have been thinking. If people can move particles around at a distance,
they can snarl up computers.
They can indeed. Take, for example, the case of 'the man who bugs
micros without really trying', described in the April 1985 issue
of Computing, with the Amstrad, the house journal of a
well-known computer manufacturer.
Peter Strickland is a textile technician who has an unusual problem.
'If it involves a computer, you can almost guarantee it will malfunction
if I'm around,' he said. On a visit to a factory, he had caused
chaos on the production line because the computer that was controlling
it 'went berserk' every time he approached it. He only had to
move a few feet away, however, and it would return to sanity and
normal operation. The poor fellow could not even use his own microchip-based
calculator. It would work perfectly well for anybody else, but
for its owner it could not get the simplest sums right. He was
now the proud but nervous owner of his first home computer. 'I'm
still expecting my CPC464 to malfunction any time now,' he concluded.
Electric fields, especially when they are pulsed at very low frequencies,
certainly can affect people, whatever the spokesmen for the Central
Electricity Generating Board prefer to tell us. I have spent a
couple of very uncomfortable weekends in the Dorset village of
Fishpond, where the locals have been campaigning for ten years
to have their overhead power lines re-sited after experiencing
a wide range of most unpleasant symptoms. These could have something
to do with the high rate of fatal heart attacks and accidents
caused by drivers blacking out there. I felt some of the same
effects at the Greenham Common airfield, the NATO missile base
that has been the target of a prolonged camp-in by anti-nuclear
women protesters. There is a rather odd radar installation there
which is not pointing up in the air, as radar dishes used to do
in my RAF days, but straight along the ground.. When I approached
the fifteen-mile chain-link fence that surrounds the base, I felt
a peculiar loss of focus, as did a colleague who was with me.
Many of the campers to whom we spoke had suffered even worse effects.
Whether these were produced accidentally or on purpose we were
not able to establish.
There must be normal explanations for such effects of electricity
on people and I wish more research could be done into them. The
effects that some people have on electricity is quite another
matter, and a more mysterious one. It was discussed at the Leesburg
meeting by Dr Robert Morris of Syracuse University (now Koestler
Professor of Parapsychology at Edinburgh University). In his well-documented
presentation, he did not need to remind his audience that if there
was a psi component in the ever-increasing interactions between
human and computer in the 1980s, they should know about it.
He began by pointing out that although it was quite common to
describe certain people as accident-prone, little had ever been
done to study the personalities of those who always seem to be
having accidents of all kinds for no obvious reason. The most
famous example was the theoretical physicist Wolfgang Pauli, of
whom his fellow physicist George Gamow wrote that he only had
to walk into a laboratory and 'apparatus would fall, break, shatter
or burn'.
Morris mentioned a recent episode of the apparent opposite of
the 'Pauli Effect', in which a magnetometer had begun to malfunction
but had started up on its own as soon as the repairman arrived
to fix it, and before he had touched it. When the man left the
room, it promptly shut down again. An alert observer persuaded
the repairman to come in and out of the room three more times,
and each time he did so, the same thing happened. 'It started
up every time he got close, and shut down every time he went away,'
said Morris. The eventual solution: 'They got someone else to
repair it.'
Morris then described an experiment he had carried out himself
to test a hypothesis that did not seem to have been adequately
tested before: that anomalous equipment malfunction could be related
to stress on the part of its operator.
Using thirty-two undergraduates as subjects, he divided them into
two groups, one consisting of those who enjoyed sports and competition
in general, and the other of those who did not. He then prepared
two sets of written instructions, labelled 'striving' or 'non-striving'.
All subjects were asked to do the same thing: to sit and stare
at a computer display unit on which a randomly generated line
of dots was moving down the screen, each dot being one step to
the left or right of the preceding one. Subjects were asked to
make the trail drift over to one side.
Half of them were given 'striving' instructions, which meant they
were to try to 'beat' the computer at all costs, waving their
arms and yelling at it as if they were at a football game if they
felt like it. The other half was told to 'non-strive' by relaxing,
taking their shoes off, not trying hard at all but just helping
the computer do what they wanted it to do.
Morris was testing two hypotheses at once. Would the competitive
types do better than their easygoing colleagues? Would the kind
of instructions each individual was given make a difference? He
had shuffled the instruction sheets so that he had no way of knowing
if a 'striving' student received one or the other.
When results were added up, his first hypothesis was laid to rest,
for there was no significant difference between the scores of
the strivers and the non-strivers. The second hypothesis, however,
needed a closer look. Of the sixteen students given striving instructions,
thirteen scored below chance level, whereas of the sixteen given
non-striving orders, fourteen scored above it. Those who had tried
hardest, in fact, had been the least successful.
This called for immediate replication, so Morris ran a second
test using twice the number of students. This time, he added some
'relaxation enhancement' in the form of light hypnosis to the
group given the non-striving instructions.
The result: no statistical difference between the two groups.
However, as most people involved with PK research know only too
well, experiments of this kind tend to produce unplanned spin-offs.
On this occasion, what happened was that the computer broke down.
And it kept on breaking down.
'We realized we had a natural experiment in front of us,' said
Morris. Looking at his subjects' personality questionnaires, he
noticed that the majority of his computer-crashers had a sceptical
attitude towards their task and tended to be 'more inclined to
anxiety in performance situations' than their less crash-prone
colleagues.
'Our computer system seemed to be crashing in the presence of
people who didn't value what they were doing very highly, and
were inclined to be anxious about their performance,' Morris concluded.
Looked at in the light of this evidence, Geller's performance
in Tokyo is of particular interest. It might be said that on that
occasion he was definitely a striver rather than a non-striver.
Indeed, most people who know Uri well would probably agree that
he always is a striver, with his daily routine of punishing physical
workouts and his generally exuberant and competitive personality.
However, the picture on the screen at
Tokai University froze the very moment he stopped striving.
Close observation of his spoon-bending
technique, supported by my own photographic evidence, shows that
the same switching-off process applies here. He begins with a
period of intense striving and metal-rubbing, and he then relaxes
into the non-striving mode. That is when the spoon bends, frequently
continuing to do so after it has left his hands.
It may turn out to be that non-strivers are most successful in
PK tasks if they have previously been through a period of striving,
while strivers will only succeed if they change modes. I hope
this approach will be explored further.
There is another approach, and by way of a surprise bonus, the
Leesburg symposium delegates were given a brief course in do-it-yourself
metal-bending! Their instructor was the pioneer of what has come
to be known as the PK party, an aerospace engineer from the McDonnell
Douglas Astronautics Co. named Jack Houck. He has combined a lighthearted
approach to his subject with a serious scientific one, with the
help of his colleague Severin Dahlen, a professional metallurgist.
The purpose of a PK party is not to sit around and discuss PK,
but to do it. The first one was held in Houck's California home
on 19 January 1981, and involved twenty of his friends from all
walks of life. At that time, he had never met Geller, or witnessed
any of his live performances. Nor was he familiar with the research
of Kenneth J. Batcheldor, who had been demonstrating since 1964
that PK can be generated to order in small groups, using the traditional
Victorian table-tilting procedure, without any a priori belief
in spirits. (His work was described in detail in my book If
this Be Magic.) From his base in the heart of the high-technology
establishment, Houck worked it all out for himself.
The first PK party was, he told me in 1985, an experiment designed
to test a conceptual model he had devised the previous year. He
continued:
I had selected the PK metal-bending phenomenon simply because
people had laughed during several briefings of my conceptual model,
where I had indicated that I thought all of these mind phenomena
worked in a similar way. In those briefings, I basically predicted
that if you create a peak emotional event at the current time,
you would get the phenomena at the current time, and thus, immediate
feedback.
According to his model, any ordinary non-mystical person could
achieve the kind of state described by mystics for centuries and
experience one of the paranormal powers, or siddhis, that
can be acquired in this state. They include the ability to see
at a distance, to make contact with other minds, and to achieve
identity of mind with physical objects.
Houck and his guests sat around in a circle, clutching their spoons,
while Dahlen read out the simple instructions:
1 Get a point of concentration in your head.
2 Make it very intense and focused.
3 Grab it, and bring it down through your neck, down through
your shoulder, down through your arm, through your hand, and put
it into the silverware at the point you intend to bend it.
4 Command it to bend.
5 Release the command and let it happen.
These instructions, I must emphasize, have to be experienced in
a group setting and not merely read in printed form. As Batcheldor
has found, it is only in a group that the essential state of instant
faith and expectancy can be achieved that leads to the manifestation
of PK. This is an experiment in which everybody has to participate,
with total and uncritical commitment.
The trainee spoon-benders were told to feel for 'warm-forming'
signs that their spoons were beginning to heat up or become sticky.
When they appeared, a little normal physical force could be used
to bend the spoon. This is what Houck calls 'kindergarten' bending.
It is of no scientific value since the bending is done manually,
at least in part, although much less force is used than would
normally be needed. Its value is that the bender can feel the
spoon becoming pliable and warm, and can bend it into shapes that
would be impossible to produce by conventional means.
'Everyone felt pretty silly sitting there holding the silverware,
until the head of a fork being held by a boy (aged fourteen) bent
over all by itself,' Houck told the Leesburg audience. The boy
had managed to skip the kindergarten stage altogether. This led
to an 'instantaneous belief system change' among the others, most
of whom had seen it happen. As soon as they knew for certain that
metal could be bent, and bent right now, they found their spoons
and forks going soft for periods of up to twenty seconds during
which they could be twisted around as if they were made of Plasticine.
By the end of the party, everybody had bent something, with two
exceptions: a lady who had remarked beforehand that she could
not see the point in bending spoons, and Houck himself, who was
too busy observing what was going on to be able to obey his own
instructions. As I found for myself at the two PK parties I attended,
at Cambridge in 1982 and Basle, Switzerland, in 1983, you cannot
observe and participate at the same time.
Looking back on his first PK party, Houck recalled:
Little did I know that four and a half years later I would
have conducted 128 PK parties, with over 5,000 people in attendance
at them. Anyone can conduct a party if they have enough courage
to stand up in front of a group. There are now at least 35 people
conducting PK parties around the world. These parties provide
an environment where everyone can experience psychokinesis, if
they allow themselves to have the experience.
One of these party-givers is New York television executive Diana
Gazes, who claims that the success rate among first-time metal-benders
at her weekly workshops is around eighty per cent. Just about
anyone, she reckons, can learn to do it. She herself learned from
Eldon Byrd, who in turn learned from Geller. Byrd was in fact
the first scientist to publish a positive report on Geller's laboratory
PK, and has become an accomplished bender himself, his speciality
being the crunching of spoon-bowls as if they were rose petals.
After one of her 1985 workshops, the president of a business publishing
company had this to say to her:
I had a very surprising evening at your metal-bending seminar.
It's mind-expanding, indeed, to see how possible the impossible
is. Metal-bending changes all reference to 'It can't be done.'
Metal can't be bent, but you said it could be done easily, and
it was done. If that can be done, it gives one confidence that
so much more can be done.
Dennis Stillings, whose journal Archaeus has published
several technical papers by Byrd, Houck and Dahlen, has also found
metal-bending to be a fairly simple business once the psychological
preparation for it is understood. His reply to the die-hards who
insist it is all trickery is a simple one, 'People acquainted
with these phenomena find they are so common and easily accomplished,
that cheating is silly.'
A twelve-year-old girl who attended one of Byrd's parties, at
which three-quarters of the guests managed to bend something,
put her finger on the crucial feature of the psychological preparation.
After she had, according to writer Elizabeth Fuller, 'crunched
a spoon with one hand like a female Oddjob', Byrd remarked that
children tend to be best at this kind of thing.
'Yeah. Because nobody's told us we can't do it. Right?' the girl
asked.
'That's exactly right,' Byrd replied.
The connection between spoon-bending and world peace may not be
obvious, yet there is one. In 1983, a graduate student from John
F. Kennedy University in Orinda, California, sent questionnaires
to 800 people who had been to a PK party hosted by Houck and Dahlen.
She received replies from 311 of them, nearly three-quarters of
whom said that they had felt what Houck calls the 'warm-forming
effect' after following the instructions mentioned above. An even
higher percentage believed that PK existed even if they had not
managed to produce it themselves.
Those who had succeeded found that they were able to use their
newly discovered powers to control their environments, their health
and their futures. Once somebody has found that the mind can alter
the structure of a spoon (or, in the case of the Batcheldor groups,
levitate a table), the logical step is to use the same mind -
or better still a group of like minds - to alter more complex
structures, whether physical, social or political.
Jack Houck has carried out some interesting experiments using
seeds instead of cutlery at his parties, the object being not
to bend them but to make them sprout. He first tried this at the
suggestion of Eldon Byrd, who was present when Geller demonstrated
his seed-sprouting skill on Japanese television. Houck's pupils
have been able to make soyabean seeds sprout by applying much
the same technique as the one already described for bending spoons.
In this case, they are, of course, only making something happen
that would have happened eventually on its own, but if it is possible
to use applied PK to speed up a natural process, the implications
for healing are fairly obvious.
Mesmer's pupil, the Marquis de Puysegur, who discovered the hypnotic
trance state in 1784, described healing by what was then called
animal magnetism as 'the action of thought upon the body's vital
principle'. Healers, he said, should place their hands on patients'
bodies 'in order to induce heat there'. Sudden bursts of heat
are still a widely reported feature of the hand-healing technique.
I have experienced them myself while being treated by Matthew
Manning, an expert healer who for a short time in the early 1970s
was also a very proficient metal-bender.
There are now many who would argue that the 'anomalous' phenomena
of telepathy, clairvoyance and PK are anomalous no longer. They
are here to stay and are being put to practical use, and a great
deal of the credit for this breakthrough is due to Geller.
'I think Uri Geller has done a tremendous service to the world,'
Houck told me, 'by opening up the minds of many to the possibility
of psychokinesis.' Which, as he has said so often, is what he
always intended to do.
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