A wind and solar powered Light Electric Vehicle (LEV) rental outlet specifically configured to offer electric bicycles, SEGWAYS,Personal mobility scooters and other such personal electric modes of transportation for rental in any remote, off-grid location served by the tourist industry, such as islands and beach resorts, and in other locations that typically do not have access to the electrical infrastructure to offer such a rental service. This LEV rental outlet is equipped with enough battery storage so as to allow for the multiple use of each personal electric vehicle on an hourly basis over the course of a day. The LEV rental outlet is configured entirely within an ISO Standard Shipping Container so as to be transportable on commercial container ship. This allows the LEV rental outlet it to be deployed and operated in any location in the world without the need of supporting infrastructure.
A Relative Superluminal Propulsion Drive that allows for the electro-mechanical means by which a vehicle of mass can be accelerated to and maintain a relative velocity greater than the universal constant C (299,792,458 meters/second, the speed of light in a vacuum) between two fixed points in space when measured from a third fixed point in space. The propulsion drive is an array of electro-mechanical antennas positioned on the forward and aft portion of the vehicle and provides for the force of acceleration to the vehicle by lowering the pressure and density of the energy state of the area in front of the vehicle and increasing the pressure and density of the energy state behind the vehicle through the collection and re-distribution of that part of the electro-magnetic spectrum responsible for maintaining the average pressure density of the void energy of space. In addition to providing propulsion the Relative Superluminal Propulsion Drive accounts for and negates the effects of the Newton's Laws of Motion during both the acceleration and deceleration portion of the travel.
- Rye NH, US Michael Wayne Brace - St. Petersburg FL, US
International Classification:
F16C 3/02 B29C 65/00 F16C 7/02
Abstract:
A filament wound composite tie rod and method for fabricating the same includes end fittings coupled to a structural member tube and held by a filament-wound structure. The end fittings include lugs to guide and hold the filament at proper angles while holding the filament in place on the end fittings. The filament wound composite tie rod provides both higher tension and/or higher compressive load carrying capability than existing tie rods at a significantly reduced weight.
Oct 2012 to 2000 Senior Sales ExecutiveUSA MOBILITY INC Clearwater, FL Mar 2003 to Oct 2012 S.E. Regional Advanced Solutions ConsultantNEXTEL/ SPRINT COMMUNICATIONS Tampa, FL Jan 2002 to Mar 2003 Vertical Account ExecutiveT-MOBILE/VOICESTREAM WIRELESS Tampa, FL Jan 2001 to Jan 2002 Senior Account ExecutivePAGENENT/ARCH WIRELESS Tampa, FL Feb 2000 to Jan 2001 Strategic Account ManagerLIBERTY NATIONAL LIFE Demopolis, AL Jun 1997 to Aug 1999 Professional Sales Agent
Education:
University of West Alabama, NY 1993 to 1995 History / Education CourseworkCentral Florida Community College 1993 AA in History