Bridgewire shunt setback switch

What is claimed is: 1. An arming means for explosive and/or pyrotechnic devices for military gun launched applications; said arming means comprising: a plastic housing having a central bore region, a closed upper area and a base area, said housing having two oppositely placed through holes, and; a voltage source which includes a ground point and a voltage source output; a shunt wire of negligible electrical resistance, physically positioned through both holes, and; a nonelectrically conductive ball mass sized to fit inside the housing and translate within the housing central bore region, and wherein the ball mass is further sized so that said ball mass is supported on said shunt wire, and; a bridgewire used to arm the explosive and/or pyrotechnic device when sufficient current flows through said bridgewire, said bridgewire electrically in parallel circuit with said shunt wire, said parallel circuit being connected between the voltage source output and the ground point and whereby said shunt wire normally diverts all the electrical current there through to short said bridgewire, and wherein; during launch, upon rapid acceleration of said explosive and/or pyrotechnic device including said arming means, at rest inertia of the ball mass acting against the accelerating shunt wire will break said shunt wire and stop current flow there through, and; whereas current stoppage in said shunt wire enables voltage source current to flow only through said bridgewire, and thus will arm said explosive and/or pyrotechnic device, and; wherein the ball mass will become wedged in the base area by broken shunt wire shreds, and maintain the broken shunt wire shreds thereafter in said base area. 2. The arming means of claim 1 where the ball mass is plastic. 3. The arming means of claim 1 where the shunt wire has electrical insulation. 4. The arming means of claim 1 where the voltage source is direct current. 5. The arming means of claim 1 where the voltage source is alternating current. 6. The arming means of claim 1 where the housing is nonmagnetic. 7. The arming means of claim 6 where the ball mass is nonmagnetic. 8. The arming means of claim 1 where the ball mass is nonmagnetic.