It’s worth noting that the reason we use clamps on the ends of the jumper cables is because pressure increases surface area in contact, which decreases resistance for the simple reason of Ohm’s law applied to parallel resistors. (Three 1k Ohm resistors have a parallel resistance of only 333 Ohms. It’s meaningless to give a single figure for copper → wet skin resistance without also giving the surface area for which the figure is valid.)
This means that incidental touching of metal is extremely unlikely to kill anyone, but accidentally clamping your finger, gripping metal tightly, or anything else that applies pressure to your skin will dramatically raise the risk.
It’s worth noting that the reason we use clamps on the ends of the jumper cables is because pressure increases surface area in contact, which decreases resistance for the simple reason of Ohm’s law applied to parallel resistors. (Three 1k Ohm resistors have a parallel resistance of only 333 Ohms. It’s meaningless to give a single figure for copper → wet skin resistance without also giving the surface area for which the figure is valid.)
This means that incidental touching of metal is extremely unlikely to kill anyone, but accidentally clamping your finger, gripping metal tightly, or anything else that applies pressure to your skin will dramatically raise the risk.