Patent Number: 
Section: claims

1. A device for producing thrust through a preselected shaping of an electric field, the device comprising: a housing;  a core carried by the housing, wherein the core and the housing are formed from a material having a high dielectric constant;  a cell having a high dielectric sandwiched between an electrode and a lower dielectric, wherein a plurality of cells are carried by the housing and formed around the core;  a channel formed between each cell, wherein the channel is filled with a material having a dielectric property of the lower dielectric; and  electrical connection means for connection between an electrical power source and each electrode of each cell for providing power thereto. 2. The device according to  claim 1 , wherein the core comprises a cylindrical shape having a longitudinal axis extending along a direction of thrust. claim 1 3. The device according to  claim 2 , wherein the core extends beyond a top surface and a bottom surface of a cell assembly for providing a structural attachment to a vehicle with which the device is operable. claim 2 4. The device according to  claim 1 , wherein one set of cells extends radially from a longitudinal axis to form a circular plate with each cell within the plate uniformly positioned therein. claim 1 5. The device according to  claim 1 , wherein the electrical connection means comprise a wire carried through the high dielectric for connection with the electrode at a generally central location thereof. claim 1 6. The device according to  claim 5 , wherein a plurality of wires extends radially from one cell to an adjacent cell within the plate for the connection to the electrical power source. claim 5 7. The device according to  claim 1 , further comprising a bridge conduit extending between adjacent cells within one plate having the adjacent cells therein, the bridge conduit providing a wire path for connection of the electrodes carried within the one plate, the bridge conduit further formed from a dielectric material having the dielectric properties of the high dielectric for the cell. claim 1 8. The device according to  claim 1 , further comprising an electrical power source for providing a rapidly changing voltage and/or current to each of the electrodes within each cell. claim 1 9. The device according to  claim 8 , wherein the electrical power source is operably connected for providing opposing positive and negative voltage and/or current signals to adjacent plates. claim 8 10. A device for producing thrust through a preselected shaping of an electric field, the device comprising: a plurality of cells positioned radially and longitudinally around an axis for forming a cylindrical cell assembly, each cell within the cell assembly having a high dielectric sandwiched between an electrode and a lower dielectric, each cell having a proximal edge closest to the axis of smaller length than a distal edge radially displaced therefrom;  a channel formed between each cell, wherein the channel is generally parallel to the axis and filled with a material having a dielectric property of the lower dielectric; and  electrical connection means for connection between an electrical power source and each electrode of each cell for providing power thereto. 11. The device according to  claim 10 , further comprising a core extending along the axis, the core formed from a material having a high dielectric constant. claim 10 12. The device according to  claim 11 , wherein the core extends beyond a top surface and a bottom surface of the cell assembly for providing a structural attachment to a vehicle with which the device is operable. claim 11 13. The device according to  claim 10 , wherein one set of cells extends radially from the axis to form a circular plate with each cell within the plate uniformly positioned therein. claim 10 14. The device according to  claim 13 , wherein the electrical connection means comprise a wire carried through the high dielectric of each cell for connection to the electrodes of each cell within the plate. claim 13 15. The device according to  claim 14 , wherein a plurality of wires extends radially from one cell to an adjacent cell within the plate for the connection to the electrical power source. claim 14 16. The device according to  claim 10 , further comprising a bridge conduit extending radially between radially located adjacent cells, the bridge conduit providing a wire path for connection of the electrodes of the radially located adjacent cells, the bridge conduit formed from a dielectric material having the dielectric properties of the high dielectric. claim 10 17. The device according to  claim 10 , further comprising an electrical power source for providing a rapidly changing voltage and/or current to each of the electrodes within each cell. claim 10 18. A device for producing thrust through a preselected shaping of an electric field, the device comprising: first and second electrodes having a high dielectric and a lower dielectric sandwiched therebetween;  a channel extending between the first and second electrodes, the channel formed from a material having a dielectric property of the lower dielectric; and  electrical connection means for connection between an electrical power source and each of the first and second electrodes for providing a charging power thereto; and  an electrical power source for providing a rapidly changing potential between the electrodes for producing an electric field path extend from the first electrode to the second electrode through the channel and the lower dielectric carried therebetween. 19. The device according to  claim 18 , further comprising a housing formed from a material having a dielectric property of the high dielectric, wherein the first and second electrodes and the high and lower dielectrics are carried within the housing for providing a self-contained device. claim 18 20. The device according to  claim 18 , further comprising the first electrode, the high dielectric, and the lower dielectric forming one cell, and a plurality of cells carried between the one cell and the second electrode. claim 18 21. The device according to  claim 20 , wherein one set of cells extends radially from a longitudinal axis to form a circular plate with each cell within the plate uniformly positioned therein. claim 20 22. The device according to  claim 21 , wherein the electrical connection means comprise a wire carried through the high dielectric for connection with each electrode of the cells within the plane. claim 21 23. The device according to  claim 22 , further comprising a bridge conduit extending between adjacent cells within the plate, the bridge conduit providing a wire path for connection of the electrodes carried within the plate, the bridge conduit further formed from a dielectric material having the dielectric properties of the high dielectric for the cell. claim 22 24. A method for providing thrust to a vehicle resulting from the shaping of an electric field between electrodes arranged within a cell assembly including at least one cell having positively charged and opposing negatively charged electrodes with dielectric material carried therebetween, the method comprising the steps of: forming a cell from a high dielectric sandwiched between an electrode and a lower dielectric;  positioning a plurality of cells around a core to form a plate extending radially outward therefrom, wherein the core is formed from a material having a similar dielectric property as the high dielectric;  forming a channel between each cell, wherein the channel is filled with a material having a dielectric property of the lower dielectric;  positioning a plurality of plates for providing a cell assembly having a plurality of electrodes;  making an electrical connection between an electrical power source and each electrode of each cell for providing power thereto; and  providing power to each cell with opposing charging of adjacent electrodes for providing a preselected field path through the channel and lower dielectric, and thus thrust to the vehicle to which the cell assembly is connected. 25. The method according to  claim 24 , wherein the cell forming step comprises the step of providing the high dielectric with a larger thickness dimension than the lower dielectric to enhance prevention of an electric field path therethrough. claim 24 26. The method according to  claim 24 , further comprising the steps of: claim 24 providing a housing formed from a material having a similar dielectric property as the core; and  carrying the cell assembly and core within the housing for providing a self-contained device used to provide thrust to the vehicle. 27. The method according to  claim 24 , wherein the plate stacking step comprises the steps of longitudinally stacking a plurality of plates along an axis of the core, which axis is a longitudinal axis of a cylindrical shaped core. claim 24 28. The method according to  claim 27 , wherein the core extends beyond a top surface and a bottom surface of the cell assembly for providing a structural attachment to the vehicle. claim 27 29. The method according to  claim 24 , wherein a first set of cells extends radially from a longitudinal axis to form a circular plate with each cell within the plate uniformly positioned therein. claim 24 30. The method according to  claim 24 , wherein the power providing step comprises the step of extending a wire through the high dielectric for connection with the electrode at a generally central location thereof. claim 24 31. The method according to  claim 30 , wherein a plurality of wires extends radially from the cell to the adjoining cell within the plate for the connection to the electrical power source. claim 30 32. The method according to  claim 31 , further comprising the steps of: claim 31 providing a bridge conduit extending between neighboring cells within one plate having the neighboring cells therein; and  extending the wire through the bridge conduit for providing a wire path for connection of the electrodes carried within the one plate, wherein the bridge conduit is formed from a dielectric material having the dielectric properties of the high dielectric for the cell. 33. The method according to  claim 24 , wherein the power providing step includes the step of providing a rapid power change to the electrodes for enhancing the thrust. claim 24