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GLOBAL HEAVYLIFT HOLDINGS

47 際際滷Shares26 Followers53 Followings
47 際際滷Shares26 Followers53 Followings
Personal Information
Organization / Workplace
Greater Detroit Area, MI United States
Occupation
Managing Director at GLOBAL HEAVYLIFT HOLDINGS, INC.
Website
About
Global HeavyLift Holdings, Inc. Managing Director, Dr. Rufus Stokes Foundation Director, Grand Prix Developmental Committee Director and eMOTION! REPORTS Publisher Myron D. Stokes is an award winning veteran automotive/aerospace industry analyst and spent several years as an industry correspondent for Newsweek, Newsweek Japan and Newsweek International. His work as a journalist with special emphasis on business and technology has been published in a variety of other major print mediums including the Detroit News, Changing Times Magazine, Auto Week and corporate publications. Over the years, he has provided major corporations and media groups with deep background analyses that have helpe...
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Presentations(1)油

New Presentation From Astrophysicist Dr. Andrew Beckwith: "Detailing Coherent, Minimum Uncertainty States of Gravitons, as Semi Classical Components of Gravity Waves, and How Squeezed States Affect Upper Limits to Graviton Mass" - September 3&9, 2011
New Presentation From Astrophysicist Dr. Andrew Beckwith: "Detailing Coherent, Minimum Uncertainty States of Gravitons, as Semi Classical Components of Gravity Waves, and How Squeezed States Affect Upper Limits to Graviton Mass" - September 3&9, 2011New Presentation From Astrophysicist Dr. Andrew Beckwith: "Detailing Coherent, Minimum Uncertainty States of Gravitons, as Semi Classical Components of Gravity Waves, and How Squeezed States Affect Upper Limits to Graviton Mass" - September 3&9, 2011
New Presentation From Astrophysicist Dr. Andrew Beckwith: "Detailing Coherent, Minimum Uncertainty States of Gravitons, as Semi Classical Components of Gravity Waves, and How Squeezed States Affect Upper Limits to Graviton Mass" - September 3&9, 2011

Documents(46)油

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Chongqing University's Beckwith Paper Posits a Challenge to Dysonian Assertions As to Non-viability of Gravitational Wave Detection Via Device Based (LIGO) Methodologies
Chongqing University's Beckwith Paper Posits a Challenge to Dysonian Assertions As to Non-viability of Gravitational Wave Detection Via Device Based (LIGO) MethodologiesChongqing University's Beckwith Paper Posits a Challenge to Dysonian Assertions As to Non-viability of Gravitational Wave Detection Via Device Based (LIGO) Methodologies
Chongqing University's Beckwith Paper Posits a Challenge to Dysonian Assertions As to Non-viability of Gravitational Wave Detection Via Device Based (LIGO) Methodologies
Beckwith Paper Posits a Challenge to Dysonian Assertions As to Non-viability of Gravitational Wave Detection Via Device-based, as in LIGO, Methodologies
Beckwith Paper Posits a Challenge to Dysonian Assertions As to Non-viability of Gravitational Wave Detection Via Device-based, as in LIGO, MethodologiesBeckwith Paper Posits a Challenge to Dysonian Assertions As to Non-viability of Gravitational Wave Detection Via Device-based, as in LIGO, Methodologies
Beckwith Paper Posits a Challenge to Dysonian Assertions As to Non-viability of Gravitational Wave Detection Via Device-based, as in LIGO, Methodologies
Review of Tokamak Physics As a Way to Construct a Device Optimal For Graviton Detection and Generation Within a Confined Small Spatial Volume, as Opposed to Dyson's "Infinite Astrophysical Volume" Calculations
Review of Tokamak Physics As a Way to Construct a Device Optimal For Graviton Detection and Generation Within a Confined Small Spatial Volume, as Opposed to Dyson's "Infinite Astrophysical Volume" CalculationsReview of Tokamak Physics As a Way to Construct a Device Optimal For Graviton Detection and Generation Within a Confined Small Spatial Volume, as Opposed to Dyson's "Infinite Astrophysical Volume" Calculations
Review of Tokamak Physics As a Way to Construct a Device Optimal For Graviton Detection and Generation Within a Confined Small Spatial Volume, as Opposed to Dyson's "Infinite Astrophysical Volume" Calculations