SEMINARS on the Extinction Shift Principle
next SEMINAR event
hosted by the
16th Annual Conference of the
Natural Philosophy Alliance
topic
Astrophysical Evidence clearly shows no Gravitation-Electromagnetism Interaction
subject matter
Gravitational Lensing
Wednesday, May 27, 2009
10:15 AM
Abstract:
Strong astrophysical evidence supported by important
fundamentals of Mathematical Physics suggests that a direct interaction
between gravitation and electromagnetism does not take place in the
empty vacuum space far beyond the solar plasma rim. A fundamental
principle of Mathematical Physics, namely, that of the analytical
Gaussian spherical surface law, applicable directly to gravitation as
well as to electromagnetism, reveals serious flaws in the conventional
understanding of gravitational lensing of the sun. The gravitational
light bending effect predicted by General Relativity observed at the
solar rim should theoretically be an easily detectable effect at
distances of multiple solar radii beyond the solar rim. At analytical
Gaussian spherical surfaces of radii 2R, 3R, 4R and 5R, respectively,
each assumed to be concentric to the center of the sun, the light
bending effects of at least one half, one third, one forth and one fifth
of the observed light bending effect noted at the solar rim at radius R
should be easily detectable effects within currently technical means.
Applying Gauss's surface law directly to the enclosed gravitating solar
mass, the gravitational effect on a given ray of light depends solely on
the mass M enclosed. The evidence clearly shows that a gravitational
bending effect on the rays of starlight is yet to be observed by modern
Astronomy at distances beyond the solar plasma rim. Furthermore, the
time resolved images of the rapidly moving stellar objects orbiting
about Sagittarius A*, a region at the galactic core believed to be a
super massive black hole, have not revealed any evidence of
gravitational light bending. This is a region under intense observations
by the Astrophysicists since 1992. A clear lack of observational
evidence for optical lensing due to gravitation is apparent when
examining the undistorted images of the stars moving along pure Keplar
paths about Sagittarius A*. Astrophysical observations reveal that the
stellar object s16 has a velocity approaching 3 % of the velocity of
light when passing to within a periastron distance corresponding to 60
astronomical units from the black hole thus giving solid evidence that
the space in this region has to be, without a doubt, an extremely good
vacuum. The space in the immediate vicinity of a black hole is by
definition an extremely good vacuum. The presence of any material media
near the galactic core mass would conceivably perturb the motion of the
stellar object s16 moving with fractional light velocities and would
cause it to rapidly disintegrate. To date no sign of gravitational
lensing has been observed in this region.
for further details on LOCATION & DIRECTIONS on the
16th Annual Conference of the
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past SEMINAR events
Howard University Department of Physics and Astronomy, Thirkield Hall (physics building, RM 103) Washington, DC 20059: "Emission Theory Predicts No Direct Gravitational-Electromagnetism Interaction: New Astrophysical Evidence", Most recent Emission Theory, supported by astrophysical evidence at the galactic core of the Milk Way" Wednesday, February 28, 2007, 12:00 noon
McGregor Conference Center at Wayne State University, Conference: "Special Reference Frames and Prospects for Quantum Realism", to include: "Extinction Shift Principle; Most recent Emission Theory, supported by astrophysical evidence at the galactic core of the Milk Way" November 11, 2006 at 1:00pm, conference chair: Dr Robert French See: http://www.quantumrealism.net
The International Society for Optical Engineering (SPIE) Conference, San Diego, California, USA, 2 August 2005, Proceeding of SPIE Volume #5866, pp, 119-134, SESSION 4, Convention Center Room 6F Tuesday 8:30 to 10:15 am, Paradigms and Models, Chair: Ewan M. Wright, The Univ. of Arizona
{The photon and its measurability}
Howard University Department of Electrical and Computer Engineering, Washington, DC 2300 6th Street, NW, Room 3114, Mohamed Chouikha, Ph.D., Professor and Chair, February 3, 2004, at 12:40pm
University of the District of Columbia, Department of Chemistry & Physics, Building 44, Dr. Isodora Posey, Chairperson
Date: Thursday, October 23, 2003, Time: Refreshments 12:15pm, Seminar 12:30pm
Universität Karlsruhe, Germany at Gastdozentenhaus der Universität Karlsruhe on May 12, 2003, 10:00 - 17:00 Institut für Angewandte Mathematik II Veranstaltung der Europäischen Akademie - Neue Wissenschaft und Ethik {Organization of the European Academy - New Science and Ethics}
TOPICS
Extinction Shift Principle {Das Löschverschiebungsprinzip} E. Dowdye
The Universal Principle {Das Universalprinzip} Rolf Böttner
The Universal Principle {Das Universalprinzip} Alexandra Lène
for details click: http://www.universal-prinzip.de/gesamtframe1.htm
Alternative Kern-Modelle {Alternative Nuclear Model} Joachim Herbst
discussions on additional related theories
I am truly grateful to be honored by the academy this opportunity to present my Emission Theory and I am also eternally grateful for Prof. Dr. Edgar Kaucher's professionalism, scientific Gemütlichkeit and his in depth
of my Extinction Shift Principle
Also I am also deeply honored that my Emission Theory was chosen in 2006 as a research project for the bright graduate students of this renown university of Elite Status, die Elite-Universität Karlsruhe.
Past SEMINAR events(cont.)
Department of Physics, Grambling State University, Grambling, LA October 30, 2002, 12:00 noon
University of Alabama in Huntsville, Physics Colloquium 2002, Tuesday, October 29, 2002, UAH Optics Building: OB-234, Coffee & Cookies 2:15PM, Lecture 2:30PM, Q&A 3:20PM
North Carolina A & T State University, Greensboro, North Carolina, Department of Physics, September 26, 2001, 4:00pm
Lincoln University Physics Department, Lincoln University, Pennsylvania, November 8, 2001 at 4:00pm
Howard University Department of Electrical Engineering, Washington, DC Room 3114, October 30, 2001, 12:40pm
NASA Goddard Space Flight Center, Electro-Optics Branch Code 554 Greenbelt, MD February 8, 2001 11:00am - 12:00noon.
Howard University Department of Physics & Astronomy,
Washington, DC, Thirkield
Hall, Room 103, September 6, 2000 at 12:10 pm - 1:00 pm
FORMAT
of the SEMINAR Introduction Statement of the Problems Definition of Extinction Shift Principal Axioms Hypothetical vs Real World
Observer The Indistinguishability of Equivalent Waves Mathematical Proof and Observational Evidence Step-by-step Illustrations pertaining to the Extinction
Shift Principle Summary Questions and Comments Planned Experiment & Discussion
Excerpts from past Seminars
pdf file 14 View Graphs {English}
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1 |
Title Page |
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2 |
Definition of Extinction Shift {Interference Free} |
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3 |
Definition of Extinction Shift {with Interference} undisturbed case without interference |
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4 |
Definition of Extinction Shift {with Interference} Cont. re-emitted case with interfering window (secondary source) |
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5 |
Definition of Extinction Shift {tertiary, n-ary wave} Cont. re-emitted case with interfering window from tertiary source to n (large number) re-emitters |
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6 |
Definition of Extinction Shift {Gravitation} Vibrating/Modulated Mass Experiment. A hypothetical gravitational broadcast! |
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7 |
Definition of Extinction Shift {Gravitation} Cont. An indirect relay of a gravitational signal via a secondary re-emitted gravitational wave! |
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8 |
Principal Axiom 1 |
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9 |
Principal Axiom 2 |
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10 |
Principal Axiom 3 |
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11 |
Principal Axiom 4 |
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12 |
Principal Axiom 5 |
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13 |
Principal Axiom 6 |
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14 |
Invariance of the Wave Equation |
pdf file 8 View Graphs {Deutsch}
|
1 |
Tital |
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2 |
Titalblatt |
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3 |
Zur Definition der Löschverschiebung |
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4 |
Zur Definition der Löschverschiebung im Faller der Interferenz |
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5 |
Zur Definition der Löschverschiebung im Faller der Interferenz (fortgesetzt) |
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6 |
Zur Invarianz der Wellengleichung {Invariance of the Wave Equation} |
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7 |
Effektive Masse {Effective Mass} |
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8 |
Transvers-Relative Zeitverschiebung {Transverse Relative Time Shift} |
| 9 | Periheldrehung des Merkurs {Mercury Perihelion Rotation} |