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A bio-physical basis of mathematics in synaptic function of the nervous system: A theory
Acta Biotheoretica 29 (3-4):119-127 (1980)
Abstract
The purpose of this paper is to present a bio-physical basis of mathematics. The essence of the theory is that function in the nervous system is mathematical. The mathematics arises as a result of the interaction of energy (a wave with a precise curvature in space and time) and matter (a molecular or ionic structure with a precise form in space and time). In this interaction, both energy and matter play an active role. That is, the interaction results in a change in form of both energy and matter. There are at least six mathematical operations in a simple synaptic region. It is believed the form of both energy and matter are specific, and their interaction is specific, that is, function in most of the nervous system is stereotyped. It is suggested that mathematics be taken out of the mind and placed where it belongs — in nature and the synaptic regions of the nervous system; it results in both places from a precise interaction between energy (in a precise form) and matter (in a precise structure).My notes
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Citations of this work
The nerve impulse in the axon — a new theory.John Dempsher - 1981 - Acta Biotheoretica 30 (2):121-137.
Basic function in the nervous system - a unified theory.John Dempsher - 1982 - Acta Biotheoretica 31 (3):185-202.
References found in this work
Synaptic function in the nervous system: A theory and its application.John Dempsher - 1979 - Acta Biotheoretica 28 (2):75-97.
Integration of function in the nervous system — a new theory.John Dempsher - 1979 - Acta Biotheoretica 28 (4):283-302.
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