TY - BOOK
T1 - Differentiated limits for knowability
AU - Bierschenk, Bernhard
PY - 2005
Y1 - 2005
N2 - The article is based on the string-hypothesis, which has important scientific consequences. Science has meant to associate the notion of number with the strict operation of counting. However, recent account of string-theoretical approaches is sharply distinguishing ”number” from ”magnitude”. In studying ”spinning” strings in the context of language, it is shown that rotation is a valid concept. For the description of rotating strings, super strings and super symmetries, fitness values are produced during the generation of corresponding energy landscapes. Their signifycance has been founded on the hypothesis that distance is a function of rotational acceleration and that spinors have the capacity to carry rotating string composites of varying complexity. Finally, it has been made evident that the phase transition of a string from its virtual to its material state results in a super-fluid solid, which means that dissipation-less flows of kinetic energy is decreasing the symmetry of a string. Since spinors are controlling the flow, breaking the symmetry of a string allow for the establishment of dimensional asymmetries. As a result, the asymmetry of the dimensions of intention and orientation has been determined and their componential disparity has been made manifest in the global singularities of the underlying fitness landscapes.
AB - The article is based on the string-hypothesis, which has important scientific consequences. Science has meant to associate the notion of number with the strict operation of counting. However, recent account of string-theoretical approaches is sharply distinguishing ”number” from ”magnitude”. In studying ”spinning” strings in the context of language, it is shown that rotation is a valid concept. For the description of rotating strings, super strings and super symmetries, fitness values are produced during the generation of corresponding energy landscapes. Their signifycance has been founded on the hypothesis that distance is a function of rotational acceleration and that spinors have the capacity to carry rotating string composites of varying complexity. Finally, it has been made evident that the phase transition of a string from its virtual to its material state results in a super-fluid solid, which means that dissipation-less flows of kinetic energy is decreasing the symmetry of a string. Since spinors are controlling the flow, breaking the symmetry of a string allow for the establishment of dimensional asymmetries. As a result, the asymmetry of the dimensions of intention and orientation has been determined and their componential disparity has been made manifest in the global singularities of the underlying fitness landscapes.
KW - String-hypothesis
KW - magnitudes
KW - thermodynamic limits
KW - string-rotation
KW - grapheme-production
KW - asymmetry of Intention and Orientation
KW - fitness landscapes
KW - search for novelties
KW - global singularities
M3 - Report
VL - 97
T3 - Kognitionsvetenskaplig forskning / Cognitive Science Research
BT - Differentiated limits for knowability
PB - Copenhagen University & Lund University
ER -