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A dry powder inhaler consisting of first chamber having an orifice for holding a dry powder and a gas, and a second chamber for receiving a deaggregated form of the dry powder and for communicating the deaggregated dry powder to a user. A synthetic jet drives the dry powder from the first chamber to

A dry powder inhaler consisting of first chamber having an orifice for holding a dry powder and a gas, and a second chamber for receiving a deaggregated form of the dry powder and for communicating the deaggregated dry powder to a user. A synthetic jet drives the dry powder from the first chamber to the second chamber.

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What is claimed is: 1. A dry powder inhaler comprising: a first chamber for holding a dry powder and a gas; a second chamber directly connected to the first chamber by at least one passageway, formed in a wall of the first chamber, for receiving an aerosolized form of the dry powder from the first

What is claimed is: 1. A dry powder inhaler comprising: a first chamber for holding a dry powder and a gas; a second chamber directly connected to the first chamber by at least one passageway, formed in a wall of the first chamber, for receiving an aerosolized form of the dry powder from the first chamber and delivering the aerosolized dry powder to a user; and a vibrator coupled to the first chamber for aerosolizing the dry powder and cause the aerosolized powder to move back and forth through the passageway whereby to deliver the dry powder from the first chamber to the second chamber as an aerosolized dry powder in the form of a series of fluid vortices, and projected out of the first chamber as a train of discrete slugs of gas containing suspended dry powder, wherein the first chamber has no air inlets other than the passageway connecting the first chamber to the second chamber, and said passageway has an aspect ratio of length to cross-section of at least 0.5. 2. A dry powder inhaler of claim 1, wherein the first chamber is a blister pack containing said dry powder. 3. A dry powder inhaler of claim 1, wherein the first chamber has a cylindrical shape. 4. The dry powder inhaler of claim 1, wherein the first chamber is cone shaped, said cone shape having an apex connecting to a said passageway. 5. The dry powder inhaler of claim 1, wherein said gas comprises air. 6. The dry powder inhaler of claim 1, wherein the first chamber is in the shape of a horn, said horn shape having an apex connected to a said passageway. 7. The dry powder inhaler of claim 1, wherein the distance the slugs of gas and powder moves in either direction is at least twice the diameter of the passageway. 8. The dry powder inhaler of claim 1, wherein the vibrator is a piezoelectric transducer. 9. The dry powder inhaler of claim 1, wherein the passageway has a cross-section diameter in the range of 0.001" to 0.050". 10. The dry powder inhaler of claim 1, wherein the first chamber is constructed of plastic. 11. The dry powder inhaler of claim 1, wherein the first chamber is constructed of metal. 12. The dry powder inhaler of claim 1, wherein the first chamber is constructed of a cold formed laminated material. 13. The dry powder inhaler of claim 12, wherein the laminate material comprises a tri-laminate of oriented polyamide, aluminum foil and polyvinylchloride. 14. The dry powder inhaler of claim 1, wherein the vibrator is coupled to a wall of the first chamber. 15. The dry powder inhaler of claim 1, wherein the vibrator forms at least a part of a wall of the first chamber. 16. The dry powder inhaler of claim 14, wherein the vibrator is coupled to a wall of the first chamber via an acoustic window. 17. A dry powder inhaler comprising: a first chamber for holding a dry powder and air; said first chamber having at least one orifice formed in a wall of said first chamber each orifice having an aspect ratio of length to cross-section of at least 0.5; a vibrator coupled to said first chamber for vibrating said first chamber whereby to cause air in said first chamber to move back and forth through said at least one orifice, whereby to aerosolize said powder in said air, and drive said aerosolized powder and air through said orifice in both directions as a series of fluid vortices of said aerosolized powder and air; wherein said powder is expelled from said first chamber to a second chamber through said orifice by synthetic jetting as a train of discrete slugs of air containing said aerosolized powder, wherein said first chamber has no air inlets other than the said at least one orifice. 18. The dry powder inhaler of claim 17, wherein a distance said slugs of said air moves in either direction is at least twice a diameter of the passageway. 19. The dry powder inhaler of claim 17, wherein said chamber is a blister pack containing said dry powder. 20. The dry powder inhaler of claim 17, wherein said chamber includes a standing wave resonator or a Helmholtz resonator. 21. The dry powder inhaler of claim 17, wherein said orifice has a cross-section diameter in the range of 0.001" to 0.050". 22. The dry powder inhaler of claim 17, wherein the vibrator is coupled to a wall of said chamber. 23. The dry powder inhaler of claim 17, wherein the vibrator forms at least a part of a wall of said chamber. 24. The dry powder inhaler of claim 17, wherein the vibrator is coupled to a wall of said chamber via an acoustic window. 25. The dry powder inhaler of claim 17, wherein the vibrator comprises a piezoelectric transducer. 26. A dry powder inhaler comprising: a chamber holding a quantity of dry powder and air; said chamber having at least one orifice formed in a wall of said chamber, wherein all of the orifices formed in a wall of the chamber have an aspect ratio of length to cross-section of at least 0.5; a vibrator coupled to said chamber and tuned to vibrate at a frequency and amplitude to aerosolize said powder in said air and to cause said aerosolized powder to move back and forth in said orifice as a series of fluid vortices, wherein said aerosolized powder is expelled from said chamber, by synthetic jetting, as a series of discrete slugs of air containing said aerosolized dry powder. 27. A dry powder inhaler of claim 26, wherein the first chamber is a blister pack containing said dry powder. 28. A dry powder inhaler of claim 26, wherein the first chamber has a cylindrical shape. 29. The dry powder inhaler of claim 26, wherein the first chamber is cone shaped, said cone shape having an apex connecting to said passageway. 30. The dry powder inhaler of claim 26, wherein the first chamber comprises a standing wave resonator or a Helmholtz resonator. 31. The dry powder inhaler of claim 28, wherein the first chamber is in the shape of a horn, said horn shape having an apex connected to said passageway. 32. The dry powder inhaler of claim 28, wherein the vibrator is a piezoelectric transducer. 33. The dry powder inhaler of claim 28, wherein said orifice has a cross-section diameter in the range of 0.001" to 0.050". 34. The dry powder inhaler of claim 28, wherein the first chamber is constructed of plastic. 35. The dry powder inhaler of claim 28, wherein the first chamber is constructed of metal. 36. The dry powder inhaler of claim 28, wherein the first chamber is constructed of a cold formed laminated material. 37. The dry powder inhaler of claim 36, wherein the laminate material comprises a tri-laminate of oriented polyamide, aluminum foil and polyvinylchloride. 38. The dry powder inhaler of claim 26, wherein the vibrator is coupled to a wall of the first chamber. 39. The dry powder inhaler of claim 26, wherein the vibrator forms at least a part of a wall of the first chamber. 40. The dry powder inhaler of claim 38, wherein the vibrator is coupled to a wall of the first chamber via an acoustic window.