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March 30, 2015

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Ph. D. Course on Santilli IsoMathematics
as a covering of 20th century mathematics
under organization at selected departments of mathematics
with partial support by the R. M. Santilli Foundation
> Application for financial support should be submitted to
Email board(at)santilli-foundation(dot)org


Part I:
Helmholtz conditions of Variational Self-Adjointness [1a].

This part is essential to identify quantitatively systems of differential equations representable with 20th century mathematics, such as Lie's theory, and broader equations beyond the descriptive capacities of 20th Century mathematics, thus requiring its structural generalization.

Part II:
Santilli IsoNumbers [2,3].

This part signals the historical transition form millennia of mathematics based on the simplest possible unit 1 to Santilli's mathematics based on the most general possible left and right unit under the sole condition of being invertible, isomathematics occurring for the particular case when the generalized unit is positive-definite, and known as Santilli isounit.

Part III:
Santilli-Georgiev IsoDifferential Calculus [4,5].

This part signals the additional historical transition from centuries of mathematics based on the Newton-Leibniz differential calculus to Santilli covering conception of Iso-differential calculus which is crucial for quantitative treatments of variationally non-self-adjoint equations.

Part IV:
Kadeisvili IsoFunctional IsoAnalysis [6,7a].
This, part, which was initiated by the (late) J. V. Kadeisvili, is crucial for the correct elaboration of Santilli isomathematics and treats the axiom-preserving isotopic lifting of the entire 20th century functional analysis, including trigonometry, Fourier transforms, etc.

Part IV:
The Lie-Santilli IsoTheory [1b,8,9].
This part is the very hearth of the course since it signals the additionally historical transition from the sole characterization of linear, local/differential and Hamiltonian systems via Lie's theory, to the treatment via the covering Lie-Santilli isotheory of the most general known (non-singular) non-linear, non-local/integral and non-Hamiltonian systems as they occur in the physical reality.

Part V:
Santilli isosymmetries [7b,8-17].

This part consists of the most important application of the covering Lie-Santilli isotheory, that for the systematic, axiom-preserving, isotopic lifting of "all" spacetime and internal symmetries of 20th century symmetries, and provides the foundations for the scientific and industrial applications achieved to date [21], as well as to new application available, in Santilli's words, "to young minds of any age."

Part VI:
Santilli Isotopies of 20th century geometries [4,7].

By remembering that geometry provides the ultimate synthesis of nature, this part is crucial for the applications of isomathematics and consists of Santilli isotopies of the Euclidean, Minkowski, Riemannian, Fynslerian, symplectic and other geometries. Particularly significative is the Minkowski-Santilli isogeometry [18] which is characterized by the abstract axioms of the Minkowski geometry, yet it admits all the formalism of the Riemannian geometry without curvature when formulated as an isospace over an isofield.

Part VII:
The Tsagas. Falcon-Ganfornina. and Nunez-Valdˇs IsoTopology [19,20].

By remembering that topology provides the ultimate formulation of mathematics, this final part deals with the ultimate formulation of Santilli isomathematics as developed by the mathematicians Gr. Tsagas, R. M. Falc—n-Ganfornina and J. Nunez-Valdˇs. Its use is crucial for the mathematically consistent application of Santilli';s isomathematics, such as for the transition from Newton, Galileo, and Einstein theories that are solely applicable to "massive points" moving in empty space, to Santilli coverings of Newton, Galileo and Einstein theories which are applicable to extended, non--?spherical and deformable masses moving within physical media as occurring for interior conditions of particles, nuclei, molecules, stars, and black holes [21].

Numerous additional references are added depending on department selection

All links are available for free download and have been verified to be virus free

[1] M. Santilli, Foundation of Theoretical Mechanics, Volume I (1978) [1a], and Volume II (1982) [1b], Springer-Verlag,

[2]R. M. Santilli, "Isonumbers and Genonumbers of Dimensions 1, 2, 4, 8, their Isoduals and Pseudoduals, and "Hidden Numbers" of Dimension 3, 5, 6, 7," Algebras, Groups and Geometries Vol. 10, 273 (1993),

]3] Chun-Xuan Jiang, Foundations of Santilli Isonumber Theory, Inter- national Academic
Press (2001),

[41] R. M. Santilli, "Nonlocal-Integral Isotopies of Differential Calculus, Mechanics and Geometries," in Isotopies of Contemporary Mathematical Structures, P. Vetro Editor, Rendiconti Circolo Matematico Palermo, Suppl. Vol. 42, 7-82 (1996),

[5] S. Georgiev, Foundations of the IsoDifferential Calculus, Volumes I to V, Nova Scientific Publishers (2014 and 2015).

[6] J. V. Kadeisvili, SantilliÕs Isotopies of Contemporary Algebras, Geometries and Relativities, Ukraine Academy of Sciences, Second edition (1997),

[7] R. M. Santilli, Elements of Hadronic Mechanics, Vol. I (1995) [7a], Vol. II 91995) [7b], Academy of Sciences, Kiev, available in free pdf downloads from

[8] D. S. Sourlas and G. T. Tsagas, Mathematical Foundation of the Lie- Santilli Theory, Ukraine Academy of Sciences 91993

[9] J. V. Kadeisvili,ÓAn introduction to the Lie-Santilli isotopic theory,Ó Mathematical Methods in Applied Sciences Vol. 19, 1349 (1996),

[10] R. M. Santilli, "Lie-isotopic Lifting of Special Relativity for Extended Deformable Particles," Lettere Nuovo Cimento Vol. 37, 545 (1983),

[11] R. M. Santilli, "Lie-isotopic Lifting of Unitary Symmetries and of Wigner's Theorem for Extended and Deformable Particles," Lettere Nuovo Cimento Vol. 38, 509 (1983),

[12] R. M. Santilli, "Isotopic Lifting of the SU(2) Symmetry with Applications to Nuclear Physics," JINR rapid Comm. Vol. 6. 24-38 (1993),

[13] R. M. Santilli, "Isorepresentation of the Lie-isotopic SU(2) Algebra with Application to Nuclear Physics and Local Realism," Acta Applicandae Mathematicae Vol. 50, 177 (1998),

[14] R. M. Santilli, "Nonlinear, Nonlocal and Noncanonical Isotopies of the Poincare' Symmetry," Moscow Phys. Soc. Vol. 3, 255 (1993),

[15] R. M. Santilli, "Recent theoretical and experimental evidence on the synthesis of the neutron," Communication of the JINR, Dubna, Russia, No. E4-93-252 (1993), published in the Chinese J. System Eng. and Electr. Vol. 6, 177 (1995),

[16J. V. Kadeisvili, "Direct universality of the Lorentz-Poincare'-Santilli isosymmetry for extended-deformable particles, arbitrary speeds of light and all possible spacetimes" in {\it Photons: Old problems in Light of New Ideas,} V. V. Dvoeglazov Editor Nova Science (2000,

[17] A. K. Aringazin and K. M. Aringazin, "Universality of Santilli's iso-Minkowskian geometry" in {\it Frontiers of Fundamental Physics,} M. Barone and F. Selleri, Editors Plenum (1995),

[18] R. M. Santilli, "Isominkowskian Geometry for the Gravitational Treatment of Matter and its Isodual for Antimatter," Intern. J. Modern Phys. D Vol. 7, 351 (1998),

[19] Raul M. Falcon Ganfornina and Juan Nunez Valdes, "Studies on the Tsagas-Sourlas-Santilli Isotopology," Algebras, Groups and Geometries Vol. 20, 1 (2003),

[20] Raul M. Falcon Ganfornina and Juan Nunez Valdes, Fundamentos de la Isoteoria de Lie-Santilli, International Academic Press (2001),

[21] I. Gandzha and J. Kadeisvili, New Sciences for a New Era" Mathematical, Physical and Chemical Discoveries of Ruggero Maria Santilli, Sankata Printing Press, Nepal (2011),


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