This publication provides a first-of-its-kind approach on the deeper essence of time and space and their role on how the universe functions. The author introduces a particular waviness at the cosmic scale which addresses the reason of the observed expansion of the universe as well as previously unexplained astronomical effects. The waviness in the curvatures of time and space is explained to be subject to a characteristic phase shift, which is described to address the way the Higgs field mechanism 'dresses' matter with inertia through a symmetric mechanism with which the electromotive force affects reaction in electronics. Quantitative symmetry is also shown to exist between effects of fluid flow and processes of capacitance / inductance in electronics, revealing a specific orthogonality between mechanics and electronics with broader implications in the understanding of fields and interactions. A significant way is introduced to provide meaning to equations' imaginary terms, with extensive implications across physics. Among else, this sheds light to the deeper essence of the Planck constant and lets resolve the origin of quantum nature and behavior. In reference to the core concepts presented, the author has become a nominee for the 2023 Breakthrough Prize in Fundamental Physics. The concepts are presented in a descriptive way that allows comprehension by readers of various levels of knowledge, offering a solid intuitive grasp on how the cosmos operates while in parallel opening ample room for fascinating applications and further discovery across areas of science.
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.