Prophecy for Beginners E-Book

Table of Contents

The nature of time

The view of the natural sciences on time

The astrological view on time

Time on the Kabbalistic Tree of Life

Time in the different epochs

Time in the magic

Omens and oracles

Astrology and physics

Unity and multiplicity

Consciousness and matter

Freedom and inertia

Summary

Time Phenomena

Past, Present and Future

Past telepathy

Reincarnation

The collective subconscious

Lycopodium

Summary

Simultaneity

Time and simultaneity

Movements in Time

Unintentional foreseeing of the future

Intentional foreseeing of the future

Omens and oracles

Astrology

Dream journeys

Constellations

Ancestors and gods

The general perception of the future

The sensation of seeing the future

How fixed is time?

Man and world

Freedom and causality

The perspective of the soul

The house of consciousness

The Chakras

The risks of seeing the future

The benefits of seeing the future

The Effective Procedure of Seeing the Future

Book List

I The Nature of Time

It is not absolutely necessary to understand the nature of time in order to develop the seer gift, but it is quite beneficial. Even if one already possesses the seer gift, sooner or later one will probably wonder what time actually is.

Therefore, this book begins with a consideration of time from different points of view.

I 1. The view of the natural sciences on time

From the point of view of the natural sciences, time has been regarded until about 100 years ago as a uniform movement which runs continuously and always equally fast from the past to the future at all places. The only access to time is the present – the past and the future are beyond our grasp.

Time was and is the central standard in natural sciences: Natural sciences describe the change of systems in the course of time. The regularities of these temporal changes are described by natural laws. The processes themselves are called "causal" – meaning changes in the course of time according to the known rules.

There are only a few exceptions of physical measuring results which do not describe temporal changes like e.g. the constants of nature and the conservation laws.

Since the discoveries of Einstein, however, the ideas about time have changed fundamentally.

Before Einstein time was like a steady flowing river, like a straight line, like a constant, which is completely independent from everything else.

Since Einstein it is clear that time is firmly connected with space: as the three space dimensions (length, width, height) are firmly connected with each other, also time is firmly connected with space.

As long as one considers only something spatial, one can always indicate the distance of two space points as a length. If, however, time is firmly connected with space, the distance between two space/time points must also contain the element of time. The simplest connection of space and time and at the same time the only constant connection of the two is velocity: It results from the distance covered in a certain time. Thus, the distance between two space/time points is a velocity.

So far this all sounds quite "normal" – and at low velocities also everything remains quite "normal". The unusual thing about this connection of space and time is the fact that the time which passes for somebody depends on how fast somebody moves. If somebody stays on the earth and for him one year passes, for somebody who flies with a rocket at a very high speed less time passes: If he returns to the earth, for him e.g. only 11 and not 12 months have passed.

This is a strange effect in space-time: the faster you go, the less time passes. If one approaches the speed of light, finally almost no more time passes. The more you approach the speed of light, the more energy you have to spend for the next 100 kilometers per hour you want to go even faster.

But actually everybody knows this effect: "movement keeps you young" …

There is a not very precise analogy to this: If one goes from a certain point to the coast in the west, the time one needs depends on the direction in which one starts: straight to the west is fastest, to the southwest takes more time, to the south-southwest takes even considerable more time. Although you walk with the same speed, but you get different distances to the west depending on the direction. Finally, one hardly makes any progress if one walks almost due south and only 1° to the west.

Why is the speed of light such a limit? First of all it is a speed and the speed is the measure of everything in space-time.

Furthermore one could say that for the light obviously no time passes – after all it moves with the speed of light. The light stands therefore outside of time – this is an extremely important statement for a consideration of the possibility to see the future. If one would be light, one could see the whole of time, because light is timeless. The light looks, so to speak, from the outside or from above on space-time.

Einstein stated still something even more strange. His famous formula "E=mc2" says that mass consists of energy. Thereupon one has been able to construct among other things atomic bombs which transform mass into energy – this formula is therefore extremely real.

If one looks at this formula more exactly, it shows that the "c2" is the transformation item between mass and energy.

There is a fundamental difference between mass and energy: mass can be touched, it has a boundary and there can only be one mass at a given place – energy, on the other hand, cannot be touched, it has no boundary and several energies (e.g. light rays) can be at one place at the same time without interfering with each other.

This shows that the "c2" has something to do with the "firmness" of matter. The formula "E=mc2" states that energy shrinks by the factor "c2" when it becomes matter. So this "c2" is the transformation factor which creates matter out of energy. Since the "c" is the speed of light, this means that energy moves twice with the speed "c" – which matter does not do any more. So it is obvious to imagine that these two velocities of energy, which are lost during the transformation into matter, become tiny circular paths of energy inside the matter particles.

Matter, i.e. particles with mass, are energy spheres in which the energy no longer expands with the speed of light, but moves with the speed of light (c2) on a circular path or on a spherical surface.

The factor is "c2" and not "c3" or "c1", for a sphere is a plane, i.e. it has a lenght and a breadth – the legth is one of these two "c" in "c2" and the breadth is the other "c" in this "c2". They are "c2" and not e.g. "2c" because the sphere is a plane, which is calculated „lenght·breadth“ thus „c2“.

In today's physics, energy quanta and matter particles are described as curvatures of space-time. An energy quantum is therefore a quality of space-time. Space-time is like a large plateau, on wich little hills and some mountains rise – the suns, planets and moons in our universe.

Space-time is therefore the actual essence of our world. If one understands space as a snapshot of space-time, time is the ultimate substance of our world. Time is therefore more than what it seems to be at first.

All substance consists of atoms – all atoms consist of elementary particles – all elementary particles consist of energy quanta – all energy quanta are curvatures of space-time – space is a snapshot of space-time – so time must be an aspect of the unity which underlies all existing … and which itself is "timeless", since it comprises the past, the present and the future.

It is obviously this unity into which one must enter in order to be able to see the future.

In the last but one section the matter particles have been described as energy which moves on a circular path or on a tiny spherical surface – and thereby attains its "solidity". Energy acquires this intensity and outwardly its "firmness", because it becomes so to speak a laser beam, which moves on a tiny circular track. In this way Energy becomes matter.

These tiny circular paths also appear in superstring theory, which is the physical theory commonly used today to describe the world. This superstring theory is an eleven-dimensional mathematical model consisting of the time dimension, of the three "normal" extended space dimensions, and of seven tiny and therefore in everyday life invisible space dimensions – just the circular paths of energy in matter particles.

These considerations become even more exciting if one looks at black holes. These black holes are formed in the centers of galaxies, if there a star has become so large that its mass develops such an enormous gravity that not even the light can fly away from it. If this happens, the star collapses and becomes a very little sphere.

Since no light can escape the enormous gravity of such a star, such a star is "black" – it emits no light. Moreover, it becomes a "hole" – it swallows everything that comes near it and does not let it go away again. So it has been named "black hole".

There is a distance from the star, from which everything falls into the black hole without any possibility to escape. This distance is the same on all sides and consequently has the shape of a spherical surface with the giant star in its center: the so-called "Schwarzschild radius". The gravity of a black hole is so great that it pulls the entire mass of the star down to almost a very little sphere.

The formation of a black hole repeats on a large scale what happens on a small scale when a particle of matter is formed from energy:

encapsulation

Energy encapsulates into matter;

Matter encapsulates into a black hole.

"c

2

"

In the transformation of energy to matter, a "c

2

" is lost;

in the transformation of matter to a black hole also a "c

2

" is lost.=> At the transformation of energy into a black hole a "c

2

·c

2

" is lost, thus a "c

4

". This "c

4

" is the central element in the physical description of black holes.

velocity

Energy moves freely with "c" in space.

Matter moves in space with a velocity less than "c".

In a black hole, all matter and energy collapse to one a very little sphere – consequently, there is almost no motion and no more velocity left. Motion and velocity are close to 0.

circular path

Energy moves inside matter particles with "c" on a sphere.

Mass moves first on a sphere around the center of a black hole before it falls into this center.

time

Energy moves with "c", i.e. it is timeless.

Mass moves in time at speeds less than "c".

A black hole has such a large gravitation that it completely encapsulates the space-time around it – like this happens in a similar way with the formation of a mass particle from energy. This means that inside a black hole, time as we know it also no longer exists.

The formation of mass from energy is an encapsulation, at which the energy loses a degree of its freedom – the free movement with "c". For it it receives a firmness which energy does not have. Moreover, energy loses its timelessness – so it becomes solid and a particle moving slowly in time.