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A pyrotechnic device including a combustion chamber including a wall, the combustion chamber containing combustible powder; an ignition source adapted to ignite said combustible powder within said combustion chamber; wherein the wall of the combustion chamber is adapted to burst at a predetermined p

A pyrotechnic device including a combustion chamber including a wall, the combustion chamber containing combustible powder; an ignition source adapted to ignite said combustible powder within said combustion chamber; wherein the wall of the combustion chamber is adapted to burst at a predetermined pressure caused by combustion of the combustible powder; wherein the combustion chamber is disposed within a launch structure beneath a projectile and wherein a preselected amount of free space volume is disposed between said combustion chamber and said projectile.

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1. A pyrotechnic device comprising: a projectile supported on a support structure, the support structure extending a predetermined distance below the projectile;the projectile and support structure configured to be disposed within a launch structure;a combustion chamber encapsulating a combustible p

1. A pyrotechnic device comprising: a projectile supported on a support structure, the support structure extending a predetermined distance below the projectile;the projectile and support structure configured to be disposed within a launch structure;a combustion chamber encapsulating a combustible powder, the combustion chamber attached to a bottom portion of the support structure;an ignition source configured to ignite the combustible powder within the combustion chamber;wherein the support structure comprises at least two separate support members; and,wherein at least two of the at least two support members each extend upwardly and outwardly from the combustion chamber to directly contact and support the projectile. 2. The pyrotechnic device of claim 1, wherein the support structure with the projectile and the combustion chamber disposed within the launch structure defines a predetermined amount of a free space volume extending from the combustion chamber to the walls and a closed bottom of the launch structure, the free space volume surrounding and contacting the combustion chamber and the projectile. 3. The pyrotechnic device of claim 2, wherein the free space volume is greater than or equal to a volume of the combustion chamber. 4. The pyrotechnic device of claim 3, wherein the free space volume has a volume ratio with respect to the combustion chamber of about 1:1 to about 20:1. 5. The pyrotechnic device of claim 1, wherein a wall of the combustion chamber wall comprises relatively structurally weakened areas disposed in a preselected pattern. 6. The pyrotechnic device of claim 5, wherein the preselected pattern comprises a petal leaf pattern. 7. The pyrotechnic device of claim 5, wherein the structurally weakened areas comprise at least one of slits, perforations, indentations, and a different material than the wall, the weakened areas extending at least partially through the wall. 8. The pyrotechnic device of claim 1, wherein the combustible powder comprises potassium nitrate (KNO3), carbon and sulfur. 9. The pyrotechnic device of claim 1, wherein the combustible powder comprises black powder. 10. The pyrotechnic device of claim 1, wherein the combustible powder has a particle size of about 0.1 mm to about 8 mm. 11. The pyrotechnic device of claim 1, wherein the combustion chamber is configured to burst at a predetermined pressure of between about 100 psi and about 800 psi. 12. The pyrotechnic device of claim 1, further comprising a combustible material proximate an exterior surface of the combustion chamber. 13. The pyrotechnic device of claim 12, wherein the combustible material comprises at least one of nitrocellulose and smokeless powder. 14. The pyrotechnic device of claim 1, wherein the combustion chamber and the support structure comprise one or more materials selected from the group consisting of paper, fiberboard, plastic, resin, fiber-filled resin, steel, stainless steel, brass, iron, cast iron, and aluminum. 15. The pyrotechnic device of claim 1, wherein the combustion chamber is at least partially filled with the combustible powder. 16. The pyrotechnic device of claim 15, wherein the combustion chamber is partially filled with the combustible powder up to about 80 percent of a total volume of the combustion chamber. 17. The pyrotechnic device of claim 1, further comprising a fuse extending from a bottom portion of the projectile, the fuse configured to be ignited upon combustion of the combustion chamber. 18. The pyrotechnic device of claim 1, wherein the at least two support members are spaced apart. 19. The pyrotechnic device of claim 1, wherein the launch structure comprises about the same diameter as the projectile. 20. A method of manufacturing a pyrotechnic device comprising: providing a projectile supported on a support structure, the support structure extending a predetermined distance below the projectile;configuring the projectile and support structure to be disposed within a launch structure;providing a combustion chamber encapsulating a combustible powder, the combustion chamber attached to a bottom portion of the support structure;providing an ignition source configured to ignite the combustible powder within the combustion chamber;wherein the support structure is formed by providing at least two separate support members; and,wherein at least two of the at least two support members are each provided extending upwardly and outwardly from the combustion chamber to directly contact and support the projectile.