REFERENCES [1] Able, N. H., Untersuchungen über die Reihe 1 +(m/1)x +m(m-1)/(1 · 2) x^2 + . . . u.s.w., Journal für die reine und angewandte Mathematik, 1 (1826):311-339.
[2] Aristotle, The complete works of Aristotle, ed. Barnes, Princeton University Press, Princeton, 1984.
[3] Bohm, D., Causality and Chance in Modern Physics, Harper Torchbooks/The Science Library, Harper & Brothers, New York, 1957.
[4] Bohr, N., Can quantum-mechanical description of physical reality be considered complete? Physical Review 48 (1935): 696-702.
[5] Bondi, H., Cosmology, Cambridge University Press, Cambridge, 1952.
[6] deBroglie, L., in March, Arthur and Ira M. Freeman, The New World of Physics, Vintage Books, New York, 1963.
[7] DeWitt, B., Quantum mechanics and reality, Physics Today (Sept. 23, 1970): 30-35.
[8] Dyson, F. J., Fields and particles, in Readings from Scientific American, W. H. Freeman & Co., San Francisco, (1983): 21.
[9] Essen, L., The Special Theory of Relativity, A Critical Analysis, Oxford University Press, London, 1971.
[10] Faraday, M., On the physical character of the lines of magnetic force, Philosophy Magazine, S. 4., Vol (3), No. 20 (June 1852): 402- 428.
[11] Faraday, M., Induction an action of contiguous particles, in Experimental Researches in Electricity, Vol 1, Dover Press, New York, (1965): 360-416.
[12] Feinberg, G., What is the World Made Of? Atoms, Leptons, Quarks and others Tantalizing Particles, Doubleday, New York, 1977.
[13] Ferris, T., The Red Limit, Bantam Books, New York, 1979.
[14] Feuerback, L., Lectures on the Essence of Religion Tr, by Raph Nanheim, Harper & Row, New York, 1967.
[15] Gödel, K., Ueber formal unentscheidbare Sätze der Principia Mathematica und verwandter System, I, Montash, Math. Phys., 38 (1931): 173-198.
[16] Graneau, P. Far-action versus contact action, Speculations in Science and Technology, Vol. (13) No. 3, (1990): 191-201.
[17] Henley, E. M. and W. Thirring, Elementary Quantum Field Theory, McGraw Hill, New York, 1962.
[18] Herrmann, R. A., Constructing Logically Consistent Special and "General" Theories of Relativity, U. S. Naval Academy Research Council research project, 1993. For the Special Theory results see http://www.arXiv.org/abs/physics/0005031
[19] Herrmann, R. A., The Theory of Ultralogics,
http://www.arXiv.org/abs/math.GM/9903081 and /9903082
For an extended mathematical discussion of how this mathematical theory is applied to a cosmology, see "Solutions to the General Grand Unification Problem . . . " Presented before the MAA at Western MD College, 12 NOV. 1994 http://www.arXiv.org/abs/astro-ph/9903110[20] Herrmann, R. A., Fractals and ultrasmooth microeffects, J. Mathematical Physics, Vol. (3) No. 4, (April 1989): 805-808.
[21] Herrmann, R. A., D-world evidence, C.R.S. Quarterly, 23 (September 1986): 47-54.
[22] Herrmann, R. A., Mathematics for Mathematical Philosophy, Institute for Mathematical Philosophy Press, Annapolis, MD, 1986.
[23] Herrmann, R. A., Language and science, C.R.S. Quarterly, 22 (December 1985): 128-137, Section 8.
[24] Herrmann, R. A., Mathematical philosophy and developmental processes, Nature and System, 5(1/2) (March-June 1983): 17-36, Section 2.
[25] Herrmann, R. A., Subparticles and their relation to realism in Quantum Theories, Physics Letters, (not published).
[26] Herrmann, R. A., Subparticles and realism in Quantum Theories, C.R.S. Quarterly, 22 (September 1985): 84-89.
[27] Herrmann, R. A., The Word, C. R. S. Quarterly, 20 (December 1984): 226-229.
[28] Humphreys, W. J., Physics of the Air, McGraw Hill, New York, 1926.
[29] Kurtz, P., The Humanist Alternative: some definitions of Humanism, Prometheus Books, Buffalo, 1973.
[30] Lewis, C. S., Miracles (p. 32), Mere Christianity (pp. 31--32), (p. 52), Macmillan, New York, 1978.
[31] Lorentz, H. A., The Theory of Electrons, Dover Publications, New York, 1952.
[32] Maddox, J., Down with the Big Bang, Nature, Vol (340), (10 August 1989): 425.
[33] Marx, K. and F. Engels, On Region, Institute of Marxism- Leninism C.C., C.P.S.U. Foreign Languages Publishing House, 1960.
[34] Maxwell, J. C., A dynamical theory of the electromagnetic field, in The Scientific Papers of James Clark Maxwell, Dover Publications, New York, 1965.
[35] Mills J. S., A System of Logic, Book III . Collected works of John Stuart Mill, Vol. VII, University of Toronto Press, Toronto,
[36] Oparin, A. I., The Origin of Life, Dover Publications New York, 1983, p. 33.
[37] Oparin, A. I. and V. Fresenkov, Life in the Universe, Twayne Publishers Inc., New York, 1961, Foreword
[38] Patton, C. M. and J. A. Wheeler, Is physics legislated by cosmogony? in Quantum Gravity, ed Isham, Penrose, and Sciama, Clarendon Press, Oxford, 1975: 538-605.
[39] Planck, M., The Mechanics of Deformable Bodies, Vol II, Introduction to Theoretic Physics, Macmillan, New York, 1932.
[40] Robinson, A., Non-standard analysis, Nederl. Akad. Weimsch Proc. Ser. A64 (1961) and Indiag. Math. 23:432 -- 440.
[41] Rohrlich, F., Facing quantum reality, Science, Vol 221, (1983): 1255.
[42] Santayana, Reason in Religion, Charles Scribner's and Son, New York, 1905.
[43] Shannon, C., A symbolic analysis of relay and switching circuits, Trans. Amer. Inst. Elect. Eng, 57(1938), 713-723.
[44] Simhony, M., The Electron-Positron Lattice Space, Physics Section 5, The Hebrew University, Jerusalem, 1987.
[45] Tarski, A., The semantic conception of truth and the foundations of semantics, Philosophy and Phenomenological Research, 4 (1943-44): 341-375.
[46] Temple, G., The General Principles of Quantum Theory, Methuen's monographs on physical subjects, Metheum & co., London, 1951.
[47] Weinberg, S., Dreams of a Final Theory: The Search for the Fundamental Laws of Nature, Pantheon Books, New York, 1992.
[48] Weinberg, S., The First Three Minutes, Bantam Book. New York, 1977.
[49] The Weston Dictionary, The John C. Weston Co., Philadelphia, 1957.
Added References [50] Herrmann, R. A., The Theory of Infinitesimal Light-clocks (Einstein Corrected,) (This website under books or http://arxiv.org/abs/0312189 )
[51] Humphreys, D. R., Starlignt and Time, Master Books, Colorado Springs, 1994.