This is completely ignoring amperage and lowered resistance via saline. An automotive battery with sufficient CCA applied to sweaty or salt-water-doused skin wouldn’t be fun to be on the receiving end of. And if they’re using a picana, which they often are, things are going to be even worse.
If the skin is punctured then yes of course it would hurt a lot. But with sweat/saltwater? I’m no expert, but I highly doubt it. I remember helping a friend out with his boat (also 12v) during a hot summer, and I was holding onto the battery terminals with really sweaty hands. It was just a tingle.
Puncturing the skin has nothing to do with it. Human skin normally has high resistance, the palms and fingertips more so due to their skin being thicker and more likely to be calloused. Saline will always lower that resistance, though possibly not enough to allow for painful shocks across the width of your body from fingertip to fingertip. That’s quite a lot of resistance to overcome. There’s also the matter of the resistance provided by the terminals, but we’ll handwave that.
How often would you try to shock someone’s palms in a torture situation? How often do you expect to see current routed from the left hand all the way over to the right hand? And how likely are you to use just the lead battery terminals? Generally, you’d administer the shock across a shorter span, minimizing the most resistive part of the circuit. Any area with thinner, more sensitive skin is likely to experience thermal discomfort from a high amperage current, especially with lowered resistance. Even at 12V, it wouldn’t exactly be pleasant. The resistance is lowered even further by using thick copper cables, which are much more conductive than the lead terminals.
The picana makes it all so much worse. Ohm’s law tells us that current is equal to voltage divided by resistance. The rheostat in the picana allows the resistance in the circuit to be manipulated further at the turn of a dial. Cranking down the resistance means more current is applied, and that current is flowing through two copper conductors that are typically pretty close together. That means you have even less skin to serve as an insulator against the current, which ultimately results in more pain for the unlucky person being tortured.
I don’t have a particular scene, but a here’s a funny conversation I had with an acquaintance:
Quite a few of them have several car batteries in series so as to increase the voltage. And also Which is the Killer, Current or Voltage?
That was actaully a brick joke in the first episode of Archer. Here’s the first part: https://www.youtube.com/watch?v=ahObgDYU58E
This is completely ignoring amperage and lowered resistance via saline. An automotive battery with sufficient CCA applied to sweaty or salt-water-doused skin wouldn’t be fun to be on the receiving end of. And if they’re using a picana, which they often are, things are going to be even worse.
https://youtube.com/shorts/YeSHOAqSefs
You’d still be better off just hooking into 120v AC lol.
If the skin is punctured then yes of course it would hurt a lot. But with sweat/saltwater? I’m no expert, but I highly doubt it. I remember helping a friend out with his boat (also 12v) during a hot summer, and I was holding onto the battery terminals with really sweaty hands. It was just a tingle.
Puncturing the skin has nothing to do with it. Human skin normally has high resistance, the palms and fingertips more so due to their skin being thicker and more likely to be calloused. Saline will always lower that resistance, though possibly not enough to allow for painful shocks across the width of your body from fingertip to fingertip. That’s quite a lot of resistance to overcome. There’s also the matter of the resistance provided by the terminals, but we’ll handwave that.
How often would you try to shock someone’s palms in a torture situation? How often do you expect to see current routed from the left hand all the way over to the right hand? And how likely are you to use just the lead battery terminals? Generally, you’d administer the shock across a shorter span, minimizing the most resistive part of the circuit. Any area with thinner, more sensitive skin is likely to experience thermal discomfort from a high amperage current, especially with lowered resistance. Even at 12V, it wouldn’t exactly be pleasant. The resistance is lowered even further by using thick copper cables, which are much more conductive than the lead terminals.
The picana makes it all so much worse. Ohm’s law tells us that current is equal to voltage divided by resistance. The rheostat in the picana allows the resistance in the circuit to be manipulated further at the turn of a dial. Cranking down the resistance means more current is applied, and that current is flowing through two copper conductors that are typically pretty close together. That means you have even less skin to serve as an insulator against the current, which ultimately results in more pain for the unlucky person being tortured.