Master's Theses

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Browsing Master's Theses by Subject "Consciousness"

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    Free will vs determinism: reconstructing the model for understanding space-time dynamics and the role of consciousness within the universe
    (Laurentian University of Sudbury, 2015-07-08) Juden-Kelly, Lyndon
    The thrust of this thesis was to approach the historical question of whether or not “thought” or “mind” can affect physical processes from a different perspective. Alterations in generate random numbers from PN junction which are synapse-like interfaces mediating electron movement were assessed when people intended upon altering these fluctuations while being exposed to weak magnetic fields that could affect intention. The results indicated that specific physiological patterns of transcerebral magnetic fields interacted with intention to alter random fluctuation. Paired exposure of two random number devices at non-traditional distances to these patterned magnetic fields with changing angular velocities demonstrated clear evidence of classic excess correlation or “entanglement”. As the random variation drifted in one direction for one device the variation drifted in the other direction for the other device but only when the magnetic fields were operating. Quantitative electroencephalography (QEEG) correlates of the multiple subscales of a questionnaire by which “imaginative absorption” is inferred, indicated surprisingly strong associations between scores for specific subscales coupled to successful intention-related deviation of random numbers and low frequency power (theta-alpha range) within the right temporal lobe. However many other strong correlations were also observed. These results suggest that intention, an important traditional associate of “free will”, can affect random variations of electron-tunnelling processes but this coupling can be enhanced by externally originating pattern magnetic fields. These same fields when applied to two different spaces produce changes in random fluctuations that success excess correlation. One conclusion is that external forces that synchronize local spaces also occupied by brains could be a recondite determinant of the ultimate activity in electron movement in tissue whose correlative experience is the sense of “free will”.
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    The potential role of consciousness in the collapse of random physical systems: a quantitative biophysical investigation of cognitive intention
    (Laurentian University of Sudbury, 2014-05-20) Caswell, Joseph M.
    Decades of research into the anomalous phenomenon of consciousness-correlated collapse of random systems has supported the contention that human intention appears capable of eliciting significant deviations within these external systems. The following series of experiments was conducted in order to identify potential physical factors which might play a role in the consciousness-correlated effects on a random event generator device. Transcerebral application of a specific physiologically-patterned electromagnetic field was found to enhance the occurrence of this consciousness-mediated interaction. Furthermore, immersing the test area in electromagnetic ‘noise’ appears to interfere with the apparent effects of intention. Subsequent analyses were conducted in order to examine the potential contributions of gravitational sources on this phenomenon. Cerebral biophoton emission was also examined which determined that biophotons are related to the output of a proximal random event generator within both time and frequency domains. This initial series of experiments revealed a seemingly integral temporal component in this form of experiment which occurs at approximately 2 minutes into the test phase. Finally, space weather factors were examined for potential associations with the random event generator phenomenon which revealed a number of significant relationships that may contribute to this process. An artificial neural network was then constructed in order to predict values of geomagnetic activity for future experiments. These results may be among the first to quantitatively identify the probable energies and physical parameters associated with successful consciousness-mediated non-local interaction with an external system.