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Shockwave was born in Dearborn, Michigan. Shockwave's primary military specialty is Special Weapons and Tactics, and his secondary military specialty is choir. While serving with the Detroit Police Department, Shockwave was the youngest member of the S.W.A.T. Team and had earned two citations for bravery before joining the G.I. Joe Team.
Police car equipped with an LRAD-500X sonic weapon (Warsaw, Poland, 2011).. A directed-energy weapon (DEW) is a ranged weapon that damages its target with highly focused energy without a solid projectile, including lasers, microwaves, particle beams, and sound beams.
In this description, the shock wave position is defined as the boundary between the zone having no information about the shock-driving event and the zone aware of the shock-driving event, analogous with the light cone described in the theory of special relativity. To produce a shock wave, an object in a given medium (such as air or water) must ...
On October 22, 2012, Boeing announced a successful test of the missile. [3] CHAMP disabled seven different targets before self-destructing over empty desert. [4] [5]The U.S. Air Force expected to have technology for a steerable counter-electronics weapon “available” in 2016, when a multi-shot, multi-target, high-power microwave (HPM) package would be tested aboard an AGM-86 ALCM.
A 66-pound shaped charge accelerated the gas in a 3-cm glass-walled tube 2 meters in length. The velocity of the resulting shock wave was 220,000 feet per second (67 km/s). The apparatus exposed to the detonation was completely destroyed, but not before useful data was extracted. [65]
Originally developed to simulate explosions during military training, stun grenades were first used by the British Army Special Air Service's counterterrorist wing in the late 1970s, [3] [4] and have been used by police and military forces worldwide since. [5]
At first, this shock wave is inside the surface of the developing fireball, which is created in a volume of air heated by the explosion's "soft" X-rays. Within a fraction of a second, the dense shock front obscures the fireball and continues to move past it, expanding outwards and free from the fireball, causing a reduction of light emanating ...
This moves outward at supersonic speeds, creating a hydrodynamic shock wave at its outer edge. After a brief period, this shock front reaches and then passes the initial radiative fireball. The shock wave contains so much energy that the compression heating created in the air causes it to glow. At the point in the explosion captured in the ...