Offhand it would seem that a shock of 10,000 volts would be more deadly than 100 volts. Of course, that means you have to be very careful. Individuals have been electrocuted by appliances using ordinary house currents of 110 volts and by electrical apparatus in industry using as little as 42 volts direct current. That's why wet skin is a lot worse, because you get more current for the same volts. 240 volts refers to the "potential", and amps refers to the current. A transformer steps up the voltage from 110 to 220/240 (or many others!) That means a low value current for a long duration can also be fatal. The second type of 240 volt circuit is commonly used for appliances such as dryers and electric stoves. If you did not, I suggest you do so immediately. The safe current/time limit for a victim to survive at 500mA is 0.2 seconds and at 50 mA is 2 seconds. Needless to say, if you are trying to run an appliance rated at 110/120 at a higher voltage like 220/240 and don't understand this post - you probably shouldn't be attempting it! The soreness is most likely related to the extreme contraction of the muscles that occur with electic shock. Not every electrical wire (and outlet) can handle higher voltage, such as 240 volts. It is very important observe electrical safety when working on or around energized circuits. and feeds that voltage down a single "Line" along with the Common and Ground. The exact voltage and current depends on a lot of factors, like moisture on your skin, and where the current flows. The question is not relevant. But this is not so! Potential * current = watts, or energy. You can distinguish between a 120 volt outlet and a 240 volt … In the first split second that you come in contact with electricity 240V will give you twice the current of 110V, but I am convinced that what really does kill you is time because once your skin starts to burn the electrical resistance of your skin drops very low that it doesn't really matter anymore if it's 240 or 110. But 50 volts or more could kill you. Ignore that fact, and your conductors can overheat, leading to significant fire hazards. The same item will run more efficent, and with fewer amps on a 240 volt outlet versus a 120 volt outlet. High voltage elctical shock can cause serious permanent injury to the nerves, brain, heart, muscles, etc. It may not, but it could. 240 volts is easily enough to fry you ... A few milliamps is enough to put the heart into arhythmic motion and kill you. You did not mention if you had visited the Er after incurring the electric shock. The volts only matter in how much current they can cause, which depends on how well the potential is coupled to your body. UK line voltage is 220-240 volts AC 50 Hz., With that being said, why is touching a hotwire on a 120 volt outlet not as likely to kill you as touching a hotwire on a 240 volt outlet? The voltage of the electric supply is only important as it ascertains the magnitude of the current. The amount of voltage (have to be enough to overcome the body’s resistance) So as you can see not only can 110 volts do you severe harm but is the number one cause of death from electrocution in the USA. Though this device make use of 240 volts to control their main function, it can also make use of 120 volts to control equipment such as clocks and timers. Energy can kill in some situations by cooking your tissue, but that's way more current than would kill you for other reasons in most cases. 4-Wire 240 Volt Cable. Amps can kill you, and not merly volts.
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