Morphogenetic Fields

Morphic fields underlie our mental activity and our perceptions, and lead to a new theory of vision. The existence of these fields is experimentally testable through the sense of being stared at itself. There is already much evidence that this sense really exists. 

The morphic fields of social groups connect together members of the group even when they are many miles apart, and provide channels of communication through which organisms can stay in touch at a distance. They help provide an explanation for telepathy. There is now good evidence that many species of animals are telepathic, and telepathy seems to be a normal means of animal communication. Telepathy is normal not paranormal, natural not supernatural, and is also common between people, especially people who know each other well.

In the modern world, the commonest kind of human telepathy occurs in connection with telephone calls. More than 80% of the population say they have thought of someone for no apparent reason, who then called; or that they have known who was calling before picking up the phone in a way that seems telepathic. Controlled experiments on telephone telepathy have given repeatable positive results that are highly significant statistically.

The morphic fields of mental activity are not confined to the insides of our heads. They extend far beyond our brain through intention and attention. We are already familiar with the idea of fields extending beyond the material objects in which they are rooted: for example magnetic fields extend beyond the surfaces of magnets; the earth's gravitational field extends far beyond the surface of the earth, keeping the moon in its orbit; and the fields of a cell phone stretch out far beyond the phone itself. Likewise the fields of our minds extend far beyond our brains.

Morphic Fields: A Summary

  1. The hypothesized properties of morphic fields at all levels of complexity can be summarized as follows:
  2. They are self-organizing wholes.
  3. They have both a spatial and a temporal aspect, and organize spatio-temporal patterns of vibratory or rhythmic activity.
  4. They attract the systems under their influence towards characteristic forms and patterns of activity, whose coming-into-being they organize and whose integrity they maintain. The ends or goals towards which morphic fields attract the systems under their influence are called attractors. The pathways by which systems usually reach these attractors are called chreodes.
  5. They interrelate and co-ordinate the morphic units or holons that lie within them, which in turn are wholes organized by morphic fields. Morphic fields contain other morphic fields within them in a nested hierarchy or holarchy.
  6. They are structures of probability, and their organizing activity is probabilistic.
  7. They contain a built-in memory given by self-resonance with a morphic unit's own past and by morphic resonance with all previous similar systems. This memory is cumulative. The more often particular patterns of activity are repeated, the more habitual they tend to become.

Rupert Sheldrake is a biologist and author of more than 85 scientific papers, and was named among the top 100 Global Thought Leaders for 2013. He studied natural sciences at Cambridge University, where he was a Scholar of Clare College, took a double first class honours degree and was awarded the University Botany Prize in 1963. Dr Sheldrake then studied philosophy and the history of science at Harvard before returning to Cambridge, where he took a Ph.D. in biochemistry in 1967.

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