spesif_2011

Creating the discipline of gravity design

Gravity 2.0 was mentioned at the 2011 SPESIF Conference held March 15-17 at the University of Maryland. The presenter, Dr. Jochem Hauser, was presenting a paper for the American Institute of Physics on Extended Heim Theory (the physics focus of my book) and has been very generous in his time to review my book before publication.  The conference was organized in cooperation with the the American Astronautical Society (AAS), the “premier independent scientific and technical group in the United States exclusively dedicated to the advancement of space science and exploration.”

Dr. Hauser is a Professor of High Performance Computing in Suderburg, Germany. In 2007 he was a Visiting Scientist at the Institute of Mechanics at the Technical University of Clausthal, Clausthal-Zellerfeld, Germany, teaching plasma physics and performing research in advanced space propulsion through gravitomagnetic fields.

Other areas of research interest include modern Riemann solvers for computational fluid dynamics and electrodynamics, heat flux and aerodynamic control of space vehicles using magnetic and time dependent electric fields.

He is also an Advanced Space Propulsion Consultant in the field of aerodynamic simulation and high-performance computing for the European Union and the European Space Agency, and from 1988-1992 headed the Aerothermodynamics Section at the European Space Research and Technology Center (ESTEC) of the European Space Agency in Noordwijk, The Netherlands.

The book was also reviewed by Dr. Martin Tajmar, formerly a professor of micropropulsion physics in Austria and now at KAIST (Korea’s Institute of Science and Technology).  Drs. Tajmar and de Matos did the original experiments at ARC/AIT (the largest research institute in Austria) demonstrating a dipolar (attractive and repulsive) gravitomagnetic-like field in the laboratory that was as strong as the naturally occurring field of a white dwarf star – and with a strength 18 orders of magnitude larger than predicted by general relativity.

You can see the presentation below. Click the red, then the green play buttons. The citation of the book appears right away and it completed within the first three minutes of Dr. Hauser’s presentation.

About the Author

gdaigleGregory Daigle is a former professor of design who has accrued national and international awards for interactive media and STEM learning. He has held management and creative leadership positions with advertising, e-learning, industrial design and interactive media firms. He heads an awarded non-profit for place-based learning and has written numerous articles on design and technology.View all posts by gdaigle

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