DOI: 10.14704/nq.2018.16.7.1684

Bijective Analysis of Physical Equations and Physical Models

Amrit Sorli


A bijective function is a function between the elements of two sets, where each element of one set is paired with exactly one element of the other set, and where each element of the other set is paired with exactly one element of the first set. We can define every physical equation as the set X and the corresponding physical reality that the equation describes as the set Y. Every element in a given equation is an element in the set X, and each element in set X should have exactly one paired element in the set Y. The bijective analysis confirms that Newtonian physics satisfies the bijective function. On the other hand, not all of the equations in the Theory of Relativity satisfy the bijective function. Additionally, the Higgs mechanism does not satisfy the bijective function.


bijective function, Newton physics, Theory of Relativity, gravitational waves, Higgs mechanism, holographic mass, proton’s Schwarzschild radius

Full Text:



Abbott BP, Abbott R, Abbott TD, Abernathy MR, Acernese F, Ackley K, Adams C, Adams T, Addesso P, Adhikari RX, Adya VB. Observation of gravitational waves from a binary black hole merger. Physical Review Letters 2016; 116(6): 061102.

Bezrukov F, Shaposhnikov M. Higgs inflation at the critical point. Physics Letters B 2014;734:249-54.

CERN, Supersymmetry, (2018)

Meijer DK, Geesink HJ. Consciousness in the universe is scale invariant and implies an event horizon of the human brain. NeuroQuantology 2017;15(3): 41-79.

Meijer DK, Geesink JH. Phonon Guided Biology. Architecture of Life and Conscious Perception Are Mediated by Toroidal Coupling of Phonon, Photon and Electron Information Fluxes at Discrete Eigenfrequencies. NeuroQuantology 2016; 14(4):718-55.

Einstein A. Does the inertia of a body depend upon its energy-content. Annalen der Physik 1905; 18(13): 639-41.

Fiscaletti D, Sorli A. Bijective Epistemology and Space–Time. Foundations of Science 2015; 20(4): 387-98.

Fiscaletti D, Sorli A. Space-time curvature of general relativity and energy density of a three-dimensional quantum vacuum. Annales Universitatis Mariae Curie-Sklodowska, sectio AAA–Physica 2015; 69(1): 55-88.

Fiscaletti D, Sorli A. Quantum vacuum energy density and unifying perspectives between gravity and quantum behaviour of matter. Annales de la Fondation Louis de Broglie 2017; 42(2): 251-97.

Gesicki K, Zijlstra AA, Bertolami MM. The mysterious age invariance of the planetary nebula luminosity function bright cut-off. Nature Astronomy 2018:1.

Haramein N. Quantum gravity and the holographic mass. Physical Review & Research International 2013; 3(4): 270-92.

NASA (2014).

Oldershaw RL, Hadrons As Kerr-Newman Black Holes, (2010).

Piskounova Olga, Rapidity Gaps in Double Diffraction Events at LHC as a Manifestation of String Junction Net on the Topology of Torus, (2017).

Real-World Relativity: The GPS Navigation System (2017)

Rezzolla L, Most ER, Weih LR. Using gravitational-wave observations and quasi-universal relations to constrain the maximum mass of neutron stars. The Astrophysical Journal Letters 2018; 852(2): L25.

Rockenbauer A. Can the spinning of elementary particles produce the rest energy m c2 ? The vortex model of elementary particles (2009)

Sorli A, Fiscaletti D, Mageshwaran M. Advanced Relativity: Unification of Space, Matter and Consciousness. NeuroQuantology 2016; 14(4): 445-56 .

Sorli A, Dobnikar U, Fiscaletti D, Koroli V. Advanced relativity: multidimensionality of consciousness and mind, origin of life, psi phenomena. NeuroQuantology 2017a; 15(2): 109-17.

Sorli A, Kaufman S, Dobnikar U, Fiscaletti D. Advanced relativity for the renaissance of cosmology and evolution of life. NeuroQuantology 2017b; 15 (4): 37-44.

Sorli A, Kaufman S. The Epistemological Crysis in Modern Physics. NeuroQuantology, 2018; 16 (2): 1-5.

Sorli A, Dobnikar U, Patro SK, Mageshwaran M, Fiscaletti D. Euclidean-planck metrics of space, particle physics and cosmology. NeuroQuantology 2018; 16 (4): 18-25.

Tiec A, Novak J. Theory of Gravitational Waves, (2017)

Supporting Agencies

Foundations of Physics Institute, Slovenia

| NeuroScience + QuantumPhysics> NeuroQuantology :: Copyright 2001-2017