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A burned 220 volt, 30 amp electrical receptacle

Effects of Electricity on the Human Body

Dear Mr. Electrician:  What are the effects of electricity on the human body? Answer:  Below is a chart that was compiled many years ago of the effects of electricity on the human body.  It explains the effects of electricity on the human body when receiving electrical shocks of different intensities.  Do not try this yourself or on other people.  NOTE: Some text links below go to applicable products on EBay or Amazon. EFFECTS OF ELECTRICITY ON THE HUMAN BODY Amount of Electrical Current Reaction to the Human Body Below 1 milliampere Generally not perceptible 1 milliampere Faint tingle 5 milliamperes Slight shock felt; not painful but disturbing. Average individual can let go. Strong involuntary reactions can lead to other injuries.  6–25 milliamperes (women) Painful shock, loss of muscular control* 9–30 milliamperes (men) The freezing current or "let-go" range.* Individual cannot let go, but can be thrown away from the circuit if extensor muscles are stimulated. 50–150 milliamperes Extreme pain, respiratory arrest, severe muscular contractions. Death is possible. 1,000–4,300 milliamperes Rhythmic pumping action of the heart ceases. Muscular contraction and nerve damage occur; death likely.  10,000 milliamperes Cardiac arrest, severe burns; death probable.  * If the extensor muscles are excited by the shock, the person may be thrown away from the power source. NOTE: 1000 milliamperes equals one ampere which is approximately the amount of current that flows through a 120 watt light bulb at 120 volts.   Source: W.B. Kouwenhoven, "Human Safety and Electric Shock," Electrical Safety Practices, Monograph, 112, Instrument Society of America, p. 93. November 1968.   Below is a tragic story of a girl who got electrocuted in the bath tub.  Please do not use extension cords in the bathroom.  I was on a repair call for a bathroom fan once when I noticed that my elderly client had an electric heater next to his bath tub.  It was plugged into a GFCI outlet with an extension cord. In addition to an electrical hazard, the extension cord on the floor was a tripping hazard.  I tried to explain the electrical hazards and even wrote it out on my bill, but I think it was more important to him to have heat when he got out of the shower.   PROTECTION AGAINST ELECTROCUTION GFCI protected electrical outlets are required in basements, bathrooms, garages, outdoors, for service outlets, in kitchens, for swimming pools, and for appliances such for equipment such as air conditioning, electric clothes dryers, and electric stoves.  Read article 210.8 in the National Electrical Code Book (NFPA 70) You can protect yourself from electrical shock and electrocution by following some common sense guidelines.  When working or playing outdoors and using electricity be sure everything is plugged into GFCI receptacles.  GFCI receptacles and circuit breakers are designed to shut off power if there is a current imbalance of more than 5 milliamperes.  They are designed to save lives. If you work outdoors on a regular basis using power tools you should get a portable GFCI.  A portable GFCI is OSHA approved and actually has one additional protection factor that regular household GFCI outlets and circuit breakers do not have.  Portable GFCI's have lost neutral protection.  That is, if the portable GFCI device senses...