1
" In other words, the creative person does not strictly know what he or she is looking for. The whole activity, therefore, is not regarded as a problem that must be solved but simply as play itself. Within this play it is not taken for granted that new things must always be different or that they can never in any significant way be related to what came before. Indeed, it could be suggested that the more different things are, the greater may be the importance in seeing how they are similar, and likewise, the more similar things are, the greater may be the value in perceiving their difference. Science, according to this argument, is properly a continuous ongoing activity. Through creative play and fresh perception there is a constant movement of similarities and differences, with each new theory differing in some subtle but significant fashion from what came before. "
― David Bohm , Science, Order and Creativity
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" There is no logical reason, however, why, in the unfolding of scientific ideas, several theories may not offer alternative but equally valid and important accounts of a particular aspect of nature. Why must some of these theories be rejected almost as a matter of course? It could be objected that if the number of alternative theories became too large, then the whole scientific enterprise would become excessively diffuse and diluted. It is certainly true that without any established limits, ideas do tend to diverge from each other. However, there is also a natural tendency within scientific thinking for ideas to converge as well. Intelligent and creative perception of the different theories may, for example, give rise to new metaphors in which ideas are gathered together and the similarities and differences between them are explored and unfolded. "
― David Bohm , Science, Order and Creativity
8
" This proposal, of a creative plurality in scientific ideas and theories, does, however, raise a significant question: What is the relationship of science to reality? Is this plurality simply a matter of developing a number of different points of view which depend on the requirements of society or the particular preferences of the individual? If this is true, then it would appear that the idea of objectivity within science, as a means of obtaining some relative truth about nature, would no longer be valid. We suggest that there is indeed a meaning to a reality that lies outside ourselves but that it is necessary that we, too, should be included in an essential way as participators in this reality. Our knowledge of the universe is derived from this act of participation which involves ourselves, our senses, the instruments used in experiments, and the ways we communicate and choose to describe nature. This knowledge is therefore both subjective and objective in nature. "
― David Bohm , Science, Order and Creativity
10
" In other words, the creative person does not strictly know what he or she is looking for. The whole activity, therefore, is not regarded as a problem that must be solved but simply as play itself. Within this play it is not taken for granted that new things must always be different or that they can never in any significant way be related to what came before. Indeed, it could be suggested that the more different things are, the greater may be the importance in seeing how they are similar, and likewise, the more similar things are, the greater may be the value in perceiving their difference. Science, according to this argument, is properly a continuous ongoing activity. Through creative play and fresh perception there is a constant movement of similarities and differences, with each new theory differing in some subtle but significant fashion from what came before. To sustain this creative activity of the mind, "
― David Bohm , Science, Order and Creativity
12
" the idea that mathematics expresses the essential reality of nature was first put explicitly, in modern times, by scientists, such as Sir James Jeans and Werner Heisenberg, but within a few decades, these ideas were being transmitted almost subliminally. As a result, after passing through graduate school, most physicists have come to regard this attitude toward mathematics as being perfectly natural. However, in earlier generations such views would have been regarded as strange and perhaps even a little crazy—at all events irrelevant to a proper scientific view of reality. "
― David Bohm , Science, Order and Creativity
13
" To see the universal nature of gravitational attraction, Newton had to become free of the habitual compartmentalization of earthly and celestial matter, a form of fragmentation that was implicit within the tacit infrastructure of the “normal” science of his day. To break away from the habitual and commonly accepted modes of thought, which had been taken for granted for generations, required intense courage, energy, and passion. Newton had these in abundance, and at the height of his powers, he was always asking fundamental questions. The crucial factor in Newton’s vision, and indeed in the creation of all new ideas, is this ability to break out of old patterns of thought. Indeed, once this has been done, new perceptions and novel ideas appear to arise naturally. "
― David Bohm , Science, Order and Creativity
