The Gravitational Shockwave Weapon could produce detonation velocities greater than that generated by high explosives. The blast can be achieved by using recently discovered gravitational technology. This possibility leads to the conception of powerful shockwave weapons. Below is shown the design of a portable gravitational shockwave weapon, which can produce detonation velocities greater than 105m/s, and detonation pressures greater than 1010N/m2. These pressures are greater than what can now be achieved with military grade explosives.
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The most important single property of an explosive is the detonation velocity. It is the speed at which the detonation wave travels through the explosive. Typical detonation velocities in solid explosives often range beyond 3,000 m/s to 10,300 m/s
High explosives such as TNT has a detonation velocity of 6,900m/s; Military explosives used to destroy strong concrete and steel structures have a detonation velocity of 7,000 to 8,000 m/s.
At the front of the detonation zone, an energy pulse or “shockwave” is generated and transmitted to the adjacent region. The shockwave travels outward as a compression wave, moving at or near detonation velocity. When the intensity of the shockwave exceeds the compression strength of the materials they are destroyed. If the mass of the body is too large the wave energy is simply absorbed by the body.
The pressure produced in the explosion zone is called Detonation Pressure. It expresses the intensity of the generated shockwave. A high detonation pressure is necessary when blasting hard, dense bodies. Detonation pressures of high explosives are in the range from 106N/m2 to over 107 N/m2 .
The design of a portable shockwave weapon, which uses the Gravitational Shielding Effect (BR Patent Number: PI0805046-5, July 31, 2008) can produce detonations velocities greater than 100,000m/s, and detonation pressures greater than 1010N/m2 It is important to remember that an aluminum-nitrate truck bomb has a relatively low detonation velocity of 3,500 m/s (sound speed is 343.2m/s). The gun could rip through the strongest steel as if it were tissue paper, it could destroy anything that the shockwave hits.
Read more at - http://beforeitsnews.com/science-and-technology/2012/11/gravitational-shockwave-weapons-patented-handgun-that-can-destroy-anything-2498892.html
Portable Weapon of Gravitational Shockwaves
Credit:
The most important single property of an explosive is the detonation velocity. It is the speed at which the detonation wave travels through the explosive. Typical detonation velocities in solid explosives often range beyond 3,000 m/s to 10,300 m/s
High explosives such as TNT has a detonation velocity of 6,900m/s; Military explosives used to destroy strong concrete and steel structures have a detonation velocity of 7,000 to 8,000 m/s.
At the front of the detonation zone, an energy pulse or “shockwave” is generated and transmitted to the adjacent region. The shockwave travels outward as a compression wave, moving at or near detonation velocity. When the intensity of the shockwave exceeds the compression strength of the materials they are destroyed. If the mass of the body is too large the wave energy is simply absorbed by the body.
The pressure produced in the explosion zone is called Detonation Pressure. It expresses the intensity of the generated shockwave. A high detonation pressure is necessary when blasting hard, dense bodies. Detonation pressures of high explosives are in the range from 106N/m2 to over 107 N/m2 .
Read more at - http://beforeitsnews.com/science-and-technology/2012/11/gravitational-shockwave-weapons-patented-handgun-that-can-destroy-anything-2498892.html