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Three Possible Applications of Neutrosophic Logic in Fundamental and Applied Sciences
In Neutrosophic Logic, a basic assertion is that there are variations of about everything that we can measure; the variations surround three parameters called T,I,F (truth, indeterminacy, falsehood)
Remark on Artificial Intelligence, humanoid and Terminator scenario: A Neutrosophic way to futurology
It is argued that a more thoughtful approach to the future is techno-realism, and Gödel's Incompleteness Theorem should be considered as a guide to that approach.
Thirty Unsolved Problems in the Physics of Elementary Particles
Unlike what some physicists and graduate students used to think, that physics science has come to the point that the only improvement needed is merely like adding more numbers in decimal place for
In the current model of first approximation, we suggest a nonlinear heuristic approach by appropriate mathematical modelling, with the main aim – estimate the part of humankind which will survive
Towards understanding the algorithms for solving the Navier–Stokes equations
In this paper, we present a review of featured works in the field of hydrodynamics with the main aim to clarify the ways of understanding the algorithms for solving the Navier–Stokes equations.
Wireless Technologies (4G, 5G) Are Very Harmful to Human Health and Environment: A Preliminary Review
The intent of this article is to show that wireless technology is, without remedy other than termination, one of the most devastating environmental and health threats and threats to personal liberty
A Review of Seven Applications of Neutrosophic Logic: In Cultural Psychology, Economics Theorizing, Conflict Resolution, Philosophy of Science, etc.
In this short communication, we review seven applications of NFL that we have explored in a number of papers: (1) Background: the purpose of this study is to review how neutrosophic logic can be
On the origin of macroquantization in astrophysics and celestial motion
Despite the use of Bohr radius formula to predict celestial quantization has led to numerous verified observations, the cosmological origin of this macroquantization remains an open question. In this
A Derivation of Fluidic Maxwell-Proca Equations for Electrodynamics of Superconductors & Its Implication to Chiral Cosmology Model
Mario Liu described a hydrodynamic Maxwell equations [3] and, also discussed potential implications of these new approaches to superconductors which were made after Tajmar’s paper [4]. In this paper,
Schrödinger Equation and the Quantization of Celestial Systems
It is argued that such a macroquantization was formed by topological superfluid vortice, and derivation of Schrodinger equation from Gross-Pitaevskii-Ginzburg equation supports this superfluid dynamics interpretation.