Telekinesis for Beginners E-Book

Table of Contents

Moving Objects without Touching

The basic telekinesis experiment

Which resistances must telekinesis overcome?

Air friction

The size of the paper wheel

The position of the hands

The distance of the hands

The number of persons

The number of paper wheels

The mass of the wheels

The form of the wheels

Faraday cage

Gravity and nuclear force

The candle experiment

Glass insulator

Conclusions

The Telekinesis Constant

Multiplication of one's own Force

Smilie experiment

Shaolin experiment

"Hepp" experiment

Jumps etc.

Karate

Throwing dice without chance

Levitation for beginners

Lifting loads

The basic principle

Conclusions

Telekinesis or Steering of Chance?

Telekinesis and Telepathy

Comparison

Expansion of consciousness

Sword and Shield

1

st

game

2

nd

game

3

rd

game

4

th

game

5

th

game

6

th

game

7

th

game

8

th

game

9

th

game

10

th

game

Consideration of results

Telekinesis and Analogies

Apollo and Dionysus

Telekinesis for Advanced Learners

a flying candle

lifting big loads

remote shocks

hypnosis

"analogy telekinesis"

protecting the surrounding space

leviation

materializations

results

Telekinesis Models

Life force

Yesod and Da'ath

Consciousness expansion

Consciousness expansion and life force

Learning Telekinesis

Book List

1. Moving Objects without Touching Them

At least since the "Star Wars" movies, telekinesis is again a term for most people – or at least they have an image of it, even if they may not know this term.

The picture that is drawn in "Star Wars" of telekinesis is not quite correct – not that telekinesis is impossible, but it is subject to other principles.

1. a) The basic telekinesis experiment

In order to be able to talk meaningfully about telekinesis, i.e. about the "moving of objects by the will", one must have experienced it – only then one knows that what one is talking or reading or thinking about actually exists.

Fortunately, there is a simple telekinesis exercise. For this experiment you need a piece of cardboard, a pin and a piece of paper that is 4cm·4cm in size.

Put the pin through the cardboard so that the pin is stuck vertically with the point upwards in the cardboard, which is lying on the table or on the floor. Bend the paper slightly in the two diagonals and in the two lines that divide the square piece of paper into two equal rectangles, so that the center of the piece of paper can be placed on the needle without falling off.

Then one holds a hand with short distance beside the paper wheel and turns then the wheel by telekinesis – videos to this attempt one can find with youtube under "telekinesis paper wheel" or "PSI wheel".

The actual telekinesis consists of wanting and imagining that the paper wheel is turning. However, this should not degenerate into strained or tense concentration. You can also do this experiment with several people – and if they laugh, it is even easier.

With some people the attempt works immediately, some need to watch a few videos about it beforehand, and still others need to have it demonstrated first by another person (like me).

This kind of thing is most easily learned by experiencing it, and by experiencing the "taste" of what's going on. This "taste" is impossible to convey through words – you can describe the taste of a ripe strawberry in detail, but someone who has never eaten a strawberry will still not know what it tastes like …

So: turn on the PC or tablet and take a look at the experiment. And then make a paper wheel and do the experiment yourself.

The paper wheel turns now, with which the telekinesis would be basically proved as a real phenomenon.

Now you can have a closer look at this experiment and see, what can be concluded from it and if there are further experiments resulting from these considerations.

1. b) Which resistances must telekinesis overcome?

Tekinesis must act in three ways to get the paper wheel to rotate:

1. c) Air friction

In order to check whether this third consideration is true in this form, one could carry out the paper wheel experiment at different air pressures, since the air friction also depends on the air density. Of course, the most interesting experiment would be a test in vacuum, because there the rotation of the wheel would have to increase. But also an experiment at 4000m altitude in the Alps would be informative, because the air pressure there has already dropped to 60% of the pressure at sea level.

So the rotation speed of the paper wheel up in the Alps should be much higher – if the theory that the air friction determines the rotation speed of the paper wheel is correct. (The rotation should be 1.3 times as fast as at sea level).

Unfortunately I have not been on a higher mountain for a long time and I have not found any other possibility like a room where you can regulate the air pressure.

Luckily my son David has had an idea how to do an experiment to measure the role the air friction plays in limiting the velocity of the rotation of the paper wheel:

You can alter the paper wheel and add landing flaps to the sides of the wheel by folding over 1cm of the side of the wheel at an right angle. This enhances the air fraction considerably and should reduce the rotation of the wheel if the air friction plays a role in limiting the speed of rotation of the wheel.

But the speed of rotation stays exactly the same.

Conclusion: The constant speed of the rotation of the paper wheel of approximately one rotation per second is not caused by the air friction of the turning wheel.

1. d) The size of the paper wheel

In order to find rules, it is always helpful to vary a size in an experiment to see which change of the experimental result this will cause – in this way one can find quantitative correlations like "double the distance – only a quarter of the effect".

To find out which rules telekinesis follows in the paper wheel experiment, I cut papers with different side length: 1cm, 2cm, 3cm etc. up to 8cm. Then I looked at the rotation speed of these different paper wheels.

In the experiments that I have conducted so far together with about 50 people, the paper wheels with the standard side length of 4cm sidelength, which I have always used, have always achieved a rotation speed of just a little under 1 revolution per second.

In the series of tests with paper wheels of different sizes, it turned out that I can just about turn the 8cm wheel and that the two very small wheels cannot be moved at all. Of the six wheels I got to turn (3cm to 8cm), the smallest turned the fastest and the largest turned the slowest. Checking the turning speeds showed that a wheel with a side length twice as large and thus four times the size and mass of another wheel turned only a quarter as fast as the other.

The deviation of the measurements from the physical principle "double mass => half effect" was very accurate – the deviations were clearly below 5%.

This shows that also telekinesis behaves first of all like a normal physical force, whose effect depends linearly on the size of the mass to be moved.

1. e) The posture of the hands

With myself and also with most of the other people with whom I have done this experiment so far, the paper wheel turns in the direction in which the fingers of the hand next to the wheel point. So if the right hand is to the right of the wheel, the wheel turns counterclockwise; if the left hand is to the left of the wheel, the wheel turns clockwise.

With a little skill, you can place your hands so that both palms face the wheel and the fingers both face counterclockwise or both face clockwise. In my experience, this is the most effective hand position.

It sounds as if life force is flowing through the palm from the base of the hand to the tips of the fingers, carrying the wheel along – like a kind of "life force watermill". This direction of flow of life force is also found, among other things, in the three acupucture meridians that run through the palm of the hand.