On the Compatibility of Possibilism With Quantum Mechanics

dc.contributor.advisorSetargew Kenaw (PhD)
dc.contributor.authorAbinet Yeshiwas
dc.date.accessioned2023-12-27T08:36:27Z
dc.date.available2023-12-27T08:36:27Z
dc.date.issued2023-10-01
dc.description.abstractOne of the prevailing views in the field of philosophy of time is Possibilism, also known as the growing block universe theory. This theory posits that the universe is constantly growing and changing, with the past being fixed and the future being open. Nevertheless, the consistency between this theory and quantum physics remains a subject of continuous scholarly debate. This thesis gives a persuasive argument that asserts the compatibility between the theoretical framework of Possibilism and the principles of quantum physics. Through the embrace of the Copenhagen Interpretation, a profound perspective on Quantum Mechanics, wherein reality is intricately linked to the observer's presence, I posit that the very essence of the future resides within its inherent metaphysical indeterminacy. This indeterminacy, in turn, engenders a state of openness, wherein possibilities abound and outcomes remain uncertain. I possess an argument that seeks to ascertain the reality of the past, utilizing profound concepts such as the arrow of time, the enigmatic measurement problem, and the intricate phenomenon of entanglement. The inherent unpredictability of future events, which makes it imperceptible to an observer in the present, when combined with the reality the of past events, finally leads to a deep comprehension: The perspective of Possibilism, which considers the future as a realm abundant with potential rather than predetermined certainty, may be effectively integrated with the foundational principles of Quantum Mechanics.
dc.identifier.urihttp://etd.aau.edu.et/handle/123456789/1214
dc.language.isoen_US
dc.publisherAddis Ababa University
dc.subjectPossibilism, Quantum mechanics, Copenhagen Interpretation, Compatibility,
dc.titleOn the Compatibility of Possibilism With Quantum Mechanics
dc.typeThesis

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