Can a 12V battery give you a shock or not?

Question

I am reading a book called "Make: Electronics" and, on page 9, it says:

"Anyone who has dropped an adjustable wrench across the bare terminals of a car battery will tell you that short circuits can be dramatic at a "mere" 12 volts, if the battery is big enough"

They also show this image to exemplify the point above:

I have also watched this video, in which the guy touches both positive and negative parts of a 12V battery with his hand to see if he gets a shock, but, as you can see, nothing happens.

Having said that, I have 2 questions:

1) What does the size of the battery have to do with anything? The first statement says that short circuits can be "dramatic (...) if the battery is big enough". Why? For me the only difference between a small 12V battery and a big 12V battery is how long it can give you a shock for, but both would give you the same shock (ie, both would make the same current pass through your body).

2) Why didn't the guy in the video get a shock? He claimed that it is because the resistance of his hand is too high, which makes sense, but then why does the book quote (and its picture) make it look like you will for sure get a shock?

Answer 1

In most ordinary circumstances, 12 V isn't even enough to feel, let alone cause a shock.

However, it's really current that you feel and that shocks you, not voltage. So when we say that 12 V is safe, we're making implicit assumptions about the resistance of your skin. Electrically, you're basically a bag of salt water. Your insides have low resistivity, but the skin has much higher resistance. For current to go thru you, like from one hand to the other, it first encounters the skin resistance on one hand, then gets a relatively easy ride to the other hand, then again encounters significant resistance getting thru the skin to the other electrode.

Skin resistance can vary significantly, but is usually at least a few 10s of kΩ. 12 V applied to that resistance doesn't cause enough current to flow to even notice, usually. However, if the two points where the 12 V is applied to your body are sufficiently wet, the skin resistance is lower, the current is higher, and you can feel the result. A simple demonstration of this is to touch a 9 V battery briefly to your tounge. You will definitely feel it, and 12 V is another 1/3 higher.

I haven't tried this, but I suspect that if you wet two fingers with salt water and then connect 12 V between them, you'd feel it. Doing this between the two hands could even be dangerous because the current will flow near your heart.

Note that the passage you quote didn't really talk about getting electrocuted, but that it is dangerous to drop metal objects across a car battery. This is true, but implying that this proves its dangerous for a human to touch both terminals of the battery is misleading at best. A car battery is a 12 V source that can provide large current, usually a few 100 A. When you put a very low resistance across a car battery, that large current will flow, which will heat something, possibly to the point of melting or even exploding. The reason this isn't relevant to a human touching a car battery is because our resistance is nowhere near low enough to let those kinds of currents flow.

So be extra careful to not accidentally short a car battery. Generally, 12 V is safe to work around, even if you got it across the hands. However, there is no point pushing it, and if you're really sweaty, for example, it could get at least unpleasant.

Answer 2

It isn't just shocks.
A battery can push a lot of current through any piece of metal.
This could melt a wrench and cause a fire.
It could also cause a ring to get red hot and burn the wearer. It is very easy to get a finger with a ring between the positive terminal of the battery and the body or frame of the car.

Always remove metal jewelry when working near the battery or electrical parts of a vehicle.

My brother got a graphic demonstarion of this in an auto shop class in high school.

The shop teacher (stupidly) decided to show the students how dangerous a car battery could be. He did this by short circuiting a fully charged car battery with a short length of solid copper wire.

The high current flow spot welded the wire to the battery terminals. The wire got red hot and sagged down and melted a hole in the battery.

Hydrogen gas escaped and ignited on the hot wire - the battery went "BOOM!" and bits of plastic, lead, and droplets of acid flew all over the place.

All the kids had dived for cover when the teacher headed for the battery with the wire - nobody got hurt.

Most of the kids were from farms and already knew what can happen when a battery shorts out - the rest ducked when they saw the savvier kids heading for cover.

Answer 3

The text description is right. A wrench will throw sparks and possibly heat up and melt, that's dramatic.

The image, however is wrong. It clearly shows a person and a wrench being electrocuted simultaneously. The picture is wrong on 2 levels:

• a car battery can't electrocute a human in typical conditions
• no single source can electrocute 2 targets so different at once

The image was probably added later, by an editor. Editors aren't usually as technically skilled as authors. A book is a product of many people. You and the author are on the opposite sides of long chain of humans, and every one of them had an opportunity to insert his own mistakes.

Answer 4

People often assume that 12V batteries and systems are safe because of the low voltage. Some dangers I haven't seen mentioned in other answers are:

1. Death by electrocution because of other components in the system. A car stereo can kill you and I remember at least 2 stories from the 1980's where men were electrocuted while working on car stereos. I can't find these stories in the web, but lots of car stereo installation guides have warnings like this one:

   An important precaution when wiring car stereo speakers is to never work on the electrical system of your car if the ground wire is still attached to your battery. Failure to abide to this precaution can result in electrocution! Furthermore you could also damage the speakers.

2. Car batteries used to injure people all the time by blowing up (they can release flammable gas) and spraying acid on people. I used to read about this all the time. Now not so much, but the danger is still there.

3. Shock and reflex injury due to other components. A common scenario is: get too close to a spark plug wire, get a nasty jolt, slam your hand into some sharp and/or very hot piece of metal.

As for the picture, I've seen guys jump in a very similar way when they accidentally shorted terminals and got a huge set of sparks. It wasn't electrocution that did it but getting the cr*p startled out of them. (^_^)

Answer 5

The depiction is both correct and incorrect.

12V on your skin, even if you have sweaty fingers, will not do a lot, if anything. You are unlikely to even feel it. The human body is a funny thing, its impedance/resistance goes down as the voltage goes up (that is mostly because of the skin's outermost layer). While it's typically around 1-2kΩ at higher voltages, at 12V, the resistance is well over 70kΩ so you can't expect much more than 0.2mA (which would not even be dangerous if we were talking of 50Hz AC).

With needles stuck through your skin, it would look somewhat different, but I trust you won't try that.

About the wrench... this is something that I've actually seen people lacking a starter cable do, and with surprisingly little injuries... but that highly dangerous, if not insane.

A battery can (depending on model) deliver anywhere from 500 to 1,500 amperes or more in a short circuit. Note that a strike of lightning only has about 20,000-50,000 amperes, which is a mere 15-20 times as much. Lightning, however, lasts only a millisecond whereas a car battery can sustain that current for a quite non-neglegible amount of time. So you can about figure what will happen to a wrench which has close-to-zero resistance.

As an example, take a 100Ah battery, and divide that by a supposed 1,500A. Assuming that the battery is new, and fully charged and doesn't explode in your face, it will (in theory) deliver for (100*3600)/1500 = 240 seconds. That's 4 minutes.
Your wrench will be glowing red after half a second, and it will glow white not long after. Woe if you still hold it in your hands. If you touch the chassis, you'll burn a hole right through it (I've seen that happen to a friend).

This is also the reason why you always disconnect "minus" (ground) first, and reconnect it last when changing a car battery.
In order to fixate the clamps, you obviously must touch them with a wrench. But if you accidentially touch something else while on the "plus" clamp, and ground is already connected, the outcome is desastrous.

Answer 6

If you place your hands across the terminals of a 12V battery very little current will flow between the terminals because your hand has a very high electrical resistance. The current is what you feel and causes damage, and thus you will not notice anything. This is unless you do something to decrease the resistance of the human/battery interface, such as wetting your hands by sweating, and thus cause a non-negligible current to flow (negligible in terms of what you can perceive).

If you place a piece of highly conductive metal between the terminals of a 12V battery there will effectively be zero resistance between the terminals of the battery (compared to the resistance of your body as mentioned above) and as much current as the battery is capable of providing will flow between them. This will dissipate A LOT of energy, very quickly. If the battery is small, the maximum current it can provide is very small (i.e. a 9V battery on your tongue doesn't kill you). If the battery is large a VERY LARGE current will flow (a car battery must provide a lot of current for at least a short time in order to crank the starter motor). This will be very spectacular and exceed the design specifications of all components involved!

Answer 7

Normally, dry skin provides enough resistance to current flow that 12V will generally not shock you. If you scrape off some of your skin and expose your wet living tissues to the terminals, though, you can get a significant shock.

Answer 8

As others have said, it's the low resistance at work here. When you short the battery you will dissipate a few thousand watts of power through the short (although some of this will appear in the battery); that can be dramatic.

I have encountered an example of this can can be done safely. I was working with an 8000 µF capacitor charged to 5 volts. That's not a lot of power but the internal resistance is very low so the discharge happens very quickly. Short the leads and they would slightly weld themselves together - it would take a tug to pull them back apart and doing it repeatedly would roughen the leads from where the metal was melting.