06-08-2011, 10:51 AM
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A Taser is an electroshock weapon that uses electrical current to disrupt voluntary control of muscles. Its manufacturer, Taster International, calls the effects "neuromuscular incapacitation" and the devices' mechanism "Electro-Muscular Disruption (EMD) technology". Someone struck by a Taser experiences stimulation of his or her sensory nerves and motor nerves, resulting in strong involuntary muscle contractions. Tasers do not rely only on pain compliance, except when used in Drive Stun mode, and are thus preferred by some law enforcement over non-Taster stun guns and other electronic control weapons Tasers were introduced as non-lethal weapons to be used by police to subdue fleeing, belligerent, or potentially dangerous subjects, often when what they consider to be a more lethal weapon (such as a firearm) would have otherwise been used.
1.INTRODUCTION
The Taser fires two small dart-like electrodes, which stay connected to the main unit by conductive wire as they are propelled by small compressed nitrogen charges similar to some air gun or paintball marker propellants. The air cartridge contains a pair of electrodes and propellant for a single shot and is replaced after each use. There are a number of cartridges designated by range, with the maximum at 35 feet (10.6 m). Cartridges available to non-law enforcement consumers are limited to 15 feet (4.5 m). The electrodes are pointed to penetrate clothing and barbed to prevent removal once in place. Earlier Taser models had difficulty in penetrating thick clothing, but newer versions (X26, C2) use a "shaped pulse" that increases effectiveness in the presence of barriers.
Tasers primarily function by creating neuromuscular incapacitation, which means that it interrupts the ability of the brain to control the muscles in the body. This creates an immediate and unavoidable incapacitation that is not based on pain and cannot be overcome. Once the electricity stops flowing the subject immediately regains control of his body. Most subjects after being Tasered once will comply so as to avoid being Tasered a second time.
Tasers also provide a safety benefit to police officers as they have a greater deployment range than batons, pepper spray or empty hand techniques. This allows police to maintain a safe distance. A study of use-of-force incidents by the Calgary Police Service conducted by the Canadian Police Research Centre found that the use of Tasers resulted in fewer injuries than the use of batons or empty hand techniques. Only pepper spray was found to be a safer intervention option.
2. NON LETHAL WEAPONS
2.1 EVOLUTION
The two articles that follow investigate the physiological effects of electric shock. The first is by Mark W. Kroll, an electrical engineer who has helped invent numerous electrical medical devices and who sits on the board of Taser International. The second is by Patrick Tchou, a cardiac electro physiologist at the Cleveland Clinic, who has tested Tasers experimentally on pigs.
The ideal arrest tool, then, must meet a number of requirements. First, it must be able to temporarily disable even the largest, most determined drug-anesthetized individual. Second, it must do so without causing serious injury to anyone involved. Third, its effectiveness cannot be dependent on causing pain. Fourth, it must work reliably. And finally, it must be able to be used from a safe distance--let's say 5 meters--so that an arresting officer need not come within range of a suspect's blows
A Taser is an electroshock weapon that uses electrical current to disrupt voluntary control of muscles. Its manufacturer, Taster International, calls the effects "neuromuscular incapacitation" and the devices' mechanism "Electro-Muscular Disruption (EMD) technology". Someone struck by a Taser experiences stimulation of his or her sensory nerves and motor nerves, resulting in strong involuntary muscle contractions. Tasers do not rely only on pain compliance, except when used in Drive Stun mode, and are thus preferred by some law enforcement over non-Taster stun guns and other electronic control weapons Tasers were introduced as non-lethal weapons to be used by police to subdue fleeing, belligerent, or potentially dangerous subjects, often when what they consider to be a more lethal weapon (such as a firearm) would have otherwise been used.
1.INTRODUCTION
The Taser fires two small dart-like electrodes, which stay connected to the main unit by conductive wire as they are propelled by small compressed nitrogen charges similar to some air gun or paintball marker propellants. The air cartridge contains a pair of electrodes and propellant for a single shot and is replaced after each use. There are a number of cartridges designated by range, with the maximum at 35 feet (10.6 m). Cartridges available to non-law enforcement consumers are limited to 15 feet (4.5 m). The electrodes are pointed to penetrate clothing and barbed to prevent removal once in place. Earlier Taser models had difficulty in penetrating thick clothing, but newer versions (X26, C2) use a "shaped pulse" that increases effectiveness in the presence of barriers.
Tasers primarily function by creating neuromuscular incapacitation, which means that it interrupts the ability of the brain to control the muscles in the body. This creates an immediate and unavoidable incapacitation that is not based on pain and cannot be overcome. Once the electricity stops flowing the subject immediately regains control of his body. Most subjects after being Tasered once will comply so as to avoid being Tasered a second time.
Tasers also provide a safety benefit to police officers as they have a greater deployment range than batons, pepper spray or empty hand techniques. This allows police to maintain a safe distance. A study of use-of-force incidents by the Calgary Police Service conducted by the Canadian Police Research Centre found that the use of Tasers resulted in fewer injuries than the use of batons or empty hand techniques. Only pepper spray was found to be a safer intervention option.
2. NON LETHAL WEAPONS
2.1 EVOLUTION
The two articles that follow investigate the physiological effects of electric shock. The first is by Mark W. Kroll, an electrical engineer who has helped invent numerous electrical medical devices and who sits on the board of Taser International. The second is by Patrick Tchou, a cardiac electro physiologist at the Cleveland Clinic, who has tested Tasers experimentally on pigs.
The ideal arrest tool, then, must meet a number of requirements. First, it must be able to temporarily disable even the largest, most determined drug-anesthetized individual. Second, it must do so without causing serious injury to anyone involved. Third, its effectiveness cannot be dependent on causing pain. Fourth, it must work reliably. And finally, it must be able to be used from a safe distance--let's say 5 meters--so that an arresting officer need not come within range of a suspect's blows