The Intention Experiment: Use Your Thoughts to Change the World. Lynne McTaggart

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The Intention Experiment: Use Your Thoughts to Change the World - Lynne  McTaggart

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new discovery partly, if not completely, negating the prevailing views of the day. To be a true explorer in science – to follow the unprejudiced lead of pure scientific inquiry – is to be unafraid to propose the unthinkable, and to prove friends, colleagues and scientific paradigms wrong. Hidden within the cautious, neutral language of experimental data and mathematical equation is nothing less than the makings of a new world, which slowly takes shape for all the rest of us, one painstaking experiment at a time.

      Lynne McTaggart, June 2006

      Notes - Preface

       Introduction

      THE INTENTION EXPERIMENT is no ordinary book, and you are no ordinary reader. This is a book without an ending, for I intend for you to help me finish it. You are not only the audience of this book, but also one of its protagonists – the primary participants in cutting-edge scientific research. You, quite simply, are about to embark on the largest mind-over-matter experiment in history.

      The Intention Experiment is the first ‘living’ book in three-dimensions. The book, in a sense, is a prelude, and the ‘contents’ carry on well beyond the time you finish the final page. In the book itself, you will discover scientific evidence about the power of your own thoughts, and you will then be able to extend beyond this information and test further possibilities through a massive, ongoing international group experiment, under the direction of some of the most well-respected international scientists in consciousness research. Through The Intention Experiment’s website (www.theintention experiment.com), you and the rest of the readers of this book will be able to participate in remote experiments, the results of which will be posted on the site. Each of you will become a scientist at the hub of some of the most daring consciousness experiments ever conducted.

      This central idea, that consciousness affects matter, lies at the very heart of an irreconcilable difference between the world view offered by classical physics – the science of the big, visible world – and that of quantum physics – the science of the world’s most diminutive components. That difference concerns the very nature of matter and the ways it can be influenced to change.

      Nevertheless, that tidy view of the universe as a collection of isolated, well-behaved objects got dashed in the early part of the twentieth century, once the pioneers of quantum physics began peering closer into the heart of matter. The tiniest bits of the universe, those very things that make up the big, objective world, did not in any way behave themselves according to any rules that these scientists had ever known.

      This outlaw behaviour was encapsulated in a collection of ideas that became known as the Copenhagen Interpretation, after ?the place where the forceful Danish physicist Niels Bohr and his brilliant protégé, the German physicist Werner Heisenberg, formulated the likely meaning of their extraordinary mathematical discoveries. Bohr and Heisenberg realized that atoms are not little solar systems of billiard balls but something far more messy: a tiny cloud of probability. Every subatomic particle is not a solid and stable thing, but exists simply as a potential of any one of its future selves – or what is known by physicists as a ‘superposition’, or sum, of all probabilities, like a person staring at himself in a hall of mirrors.

      One of their conclusions concerned the notion of ‘indeterminacy’; that you can never know all there is to know about a subatomic particle all at the same time. If you discover information about where it is, for instance, you cannot work out at the same time exactly where it is going or at what speed. They spoke about a quantum particle as both a particle – a congealed, set thing – and a ‘wave function’ – a big smeared-out region of space and time, any corner of which the particle may occupy. It was akin to describing a person as comprising the entire street where he lives.

      Their conclusions suggested that, at its most elemental, physical matter isn’t solid and stable – indeed, isn’t an anything yet. Subatomic reality did not resemble the solid and reliable state of being described to us by classical science, but an ephemeral prospect of seemingly infinite options. So capricious seemed the smallest bits of nature that the first quantum physicists had to make do with a crude symbolic approximation of the truth – a mathematical range of all possibility.

      At the quantum level, reality resembled unset jelly.

      The quantum theories developed by Bohr, Heisenberg and a host of others rocked the very foundation of the Newtonian view of matter as something discrete and self-contained. They suggested that matter, at its most fundamental, could not be divided into independently existing units and indeed could not even be fully described. Things had no meaning in isolation, but only in a web of dynamic interrelationship.

      The quantum pioneers also discovered the astonishing ability of quantum particles to influence each other, despite the absence of all those usual things that physicists understand are responsible for influence, such as an exchange of force occurring at a finite velocity. Once in contact, particles retained an eerie remote hold over each other. The actions – for instance, the magnetic orientation – of one subatomic particle instantaneously influenced the other, no matter how far they were separated.

      Subatomic

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