So today's post is regarding a wide-spread misconception, that is practically quite .. DANGEROUS.
In fact, many people, myself included, are generally under the notion that low voltage, like one found in batteries, is quite safe to deal with.
Heck I cannot count the times we had played with batteries as young kids. Parents scold their kids to stay away from electric outlets, yet not so when it comes to batteries.
Well, the truth of the matter is that:
Low Voltage Shocks Can Be Quite Dangerous!
So now that you've been warned, let us dig into the explanation.
How Come?
The main reason behind the risk is not merely the voltage, yet it is the current of electricity (measured in amperes/Amps or milliamps/mAmps). So even a battery with as low as 12V, while normally not fatal, can still cause some serious damage.
So to make it simpler, it is the amount of amps that can lead to muscle contraction, burned tissues, and heart fibrillation.
Of course, the higher the voltage, the higher the risk, and this is all governed by Ohms Law:
So there are several factors to the equation. Voltage, current, and body resistance. Higher amps, higher voltage. Higher resistance, lower amps.
And resistance differs from person to another, and from condition to another.
- How much body fat does the person have? how hydrated is he/she?
- Is the person a male or a female
- How is the contact with the electrical appliance? direct with the skin (hand to hand, hand to foot,...)?
- Is there sweat or blood on skin (which worsen the resistance)? or on the medium of contact?
Chart below illustrates some of the mAmps effects on different persons
You can also see some of the resistance values in Ohms in the chart below
If you combine those two charts together, you can notice that a voltage as low as 20V, in the right conditions, can lead to serious health risk.
There was even a recorded case where one sailor was able, through conducting an experiment, to electrocute himself to death using a 9V battery, as explained on the original reference:
When we did the experiment in the electrical safety class to determine our body's resistance, we found a resistance of 500K Ohms. Using 9V and 500K Ohms in the equation, we come up with a current of 18 microAmps, below the "feel" threshold of 1mA. However, removing the insulation of skin from our curious sailor here, the resistance through the very good conducting electrolytes of the body is sharply lower. Around 100 ohms, in fact, resulting in a current of 90mA - sufficient to stop our sailor's heart and kill him.
So instead of using the "Danger: High voltage!" we might opt for a more accurate warning sign:
Danger: Voltage!
Hope you learned something new today .. and thank you for stopping by!
@mcfarhat
From this series:
If you enjoyed this post, you might want to check out my earlier posts from the "Misconceptions" series:
- Misconception #1: Humans Only Have 5 Senses
- Misconception #2: Water is a Good Conductor of Electricity
- Misconception #3: Ostriches Bury their Head in Sand When Scared
- Misconception #4: Ducks Quack Doesn't Echo
- Misconception #5: Mount Everest is the Tallest on Earth
References:
- http://listverse.com/2016/12/05/10-shocking-myths-about-electricity/
- http://www.ecmag.com/section/miscellaneous/low-voltage-not-low-risk
- https://www.allaboutcircuits.com/textbook/direct-current/chpt-3/ohms-law-again/
- http://www.darwinawards.com/darwin/darwin1999-50.html
Photo Credits:
- Pixabay
- Ohm's Law - All About Circuits
- Amps Effects on Humans - All About Circuits
- Resistance Values in Ohms - All About Circuits
My posts aim to be contribute to the following projects:
- #steemSTEM / @steemstem - A project to increase both the quality as well as visibility of Science, Technology, Engineering and Mathematics (and Health).
- #steemiteducation / @steemiteducation - A project to promote high quality educational posts on Steemit.
Great article! I ll go check your other misconception posts as well :)
Thank you @stoodkev!
Glad you liked it, and hope you enjoy the others as well as this one.
Cheers!
Oh I didn't know this story of the sailor. Interesting example. I may use it in real life for illustrating lectures ;)
Yes indeed, I was amazed finding out about it as well!
Thanks for stopping by and for all the support!
I am a electrician and from the good information you are putting out i have to give you props, also know typical USA power of 120v can also be dangerous because you can get stuck on to the power source vs a 220v you would just get entirely blown away
Well thank you @alt-coin for such kind words!
Yes well said, both can be extremely dangerous
Nice post @mcfarhat
Thank you @hasbiazhar
I have been a low voltage technician for over 25 years, and somehow I have not managed to electrocute myself yet. I have got zipped pretty good a few times. Your post is accurate. All electricity has the potential to be dangerous. IMO High voltage DC scares me the most
Thanks @sostrin, coming from a guru in the field means a lot.
Stay safe !
Low voltage as in below 1000V ac?
Way below like 48v and under
Ah. We class up to 50V AC as extra low voltage over here.
Danger: High Current. 😀
haha well said!
Excellent work. real glad I have discovered you. I love things like this. I am a huge fan of No Such Thing as a Fish and this is similar but different. Thanks.
Well thank you @spunkpuppet , pleasure is mine!
I recall my dad having me test 12v batteries (the square ones) by touching them on my tongue for a quck zap...lol
Pretty sure with what I know now days that same voltage could kill somebody if they had any kind of technology implants....Which we will only start seeing more and more with BCI devices. But I was referring to like a pace maker here...
Oh my LOL. Dangerous bro! I guess you won't be asking your kids to do that now :D
thanks for stopping by !
Wow, that's new info. But I will ignore this warning and keep playing with the batteries!!!
Thanks for stopping by! You've been warned LOL
Excellent post, I liked it, I follow you to read what you publish, you pass by my profile, maybe something that interests you too, keep posting like this :D
thank you @moiseslink, will check it out !
Talking about batteries, what kind of batteries causes such kind of shock because i don't think dry cell batteries have that kind of voltage to cause a shock.
Hey there @Hornblende
Thanks for stopping by.
If you went through the details of the article, it is not really relevant to the amount of Voltage, it drills down to the actual amps/electrical circuit, combined with the resistance of the recipient's body.
In such situations, 12V batteries can cause some risk (12V being a car battery), and even one delicate experiment with a 9V battery proved fatal as explained in the post.
Feel free to check out the references if in need for further explanations
Thanks again!
Very informative post. Thank you for sharing your knowledge.
please upvote and follow me i really need help growing on steemit..
Thank you for stopping by @rsrb
Great article
Thanks @timmo3663 !
Great article, this is a serious issue , yet when engineers make the design for electrical panel board and especially for Houses , a residual-current devices (RCD) or residual current breakers with overcurrent protection (RCBO) should be used to protect house residents , yet protection should be made from low to high voltage...
Thank you for stopping by @alfamano!
Yes that is great advise as well. Keeping children safe from playing with "anything electric related" is key too.
Thanks again!
So that story about the sailor is saying instead of shocking his skin, he shocked a open wound, or cut his skin and then shocked bear flesh. Thats really informative too. I wonder how fast the resistance builds from fresh wound to scab to normal skin.
makes me remember the all the bond/rambo movies where they have the cut up bloodi actor on a metal bed hook up to ac current/ or being shocked with 12v car batterys to the nipples ect.
Comical to think of cause it would not work that in real life obviously.
haha spot on thinking of those movies!
Yes indeed this is what he did, this would tremendously lower the resistance with an open cut and blood being the medium.
I never had thought about that before. Great read man.
Article is beutiful!!!
Please upvote me. And followme.. Please helpme
Thank you!
You got curied (and hendrikdegrote found you)! Congrats! These 'misconception' posts are awesome!
I've been so busy attempting making content I've not made any relationships. I plan to start doing that on the weekends. Watch out world! It's time for me to consume some content!
Not that I haven't told you lately... but keep being awesome. 😍
yes i am humbled by all the support; curie, hendridegrote, steemstem, steemiteducation, blocktrades, and
all the steemit community, and most importantly being carrieallen-ed now :D
Thank you a gazzillion, a friendship i seriously cherish !
You will do great, yea relationships, and awesome content are a great combination!
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oh no brother, I'm confused with the numbers you write, but that's cool.
haha no worries bro. Thanks for stopping by.
In a nutshell, just stay away from messing with current LOL
I'm really happy now, your numbers are finally trending, congratulations brother :)
Thanks @kharrazi ! :)
low voltage will depend on the country one is base what is consider low might be seen as high in another, avoidance if possible is the best bet
indeed staying safe is the best precaution.
Thank you for your comment!
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so it is dangerous. i keep getting shock all the time, i mean sometime.
lol yea bro, it is dangerous.
Stay safe and take proper precautions whenever dealing with electricity.
I think if I remember right anything over 50 milli amps can be consider lethal, which is probably why 30 milli amp RCD's are used in UK fuseboards for domestic installations.
However it does require a certain amount of voltage to be able to push that current through your body. I guess as mentioned in the article, removing ones skin might do it.
EDIT: They told us on our electrical installation courses years ago, that some of the tables they use in our courses come from the Nazi's who electrocuted people to death to see how much they could take and still be revived.
Yea you've got it @burtybasset. Exactly what that experiment confirmed.
On the Nazi electrocution tables : WOW!
Thanks for stopping by!
Great article! :)
Thank you!
There are situations where the high voltage is much safer to touch than low voltage. For example if we assume that we have a power supply with a fix rated power of 220W (220 V, 1A), pretty dangerous to touch, right? According to the formula P=U*I, if we increase the voltage 1000 times we will have 220 kV, 1 mA, which is pretty safe to touch. Also the electric arc might burn your skin a little.
yes that would be correct, but either way i would advise against it. Just stay safe !
And thanks for chiming in !