very interesting. i recently picked up a tdcs device for use in aim training, a fine motor skill. apparently, it works at the cost of left-handed performance, which is perfectly acceptable, given the much more right-handed (or whichever hand you use to hold the mouse) nature of first-person shooters.
The amount of mA depends on the conductance. With a a conductance of 1 kOhm, 1V corresponds to 1mA. Impedance of human skin varies anywhere between 1 and 25 kOhm, depending on how well you prep. As such, 9 volts is not unrealistc. Most tDCS machines ha a range up to 25 volts
very interesting. i recently picked up a tdcs device for use in aim training, a fine motor skill. apparently, it works at the cost of left-handed performance, which is perfectly acceptable, given the much more right-handed (or whichever hand you use to hold the mouse) nature of first-person shooters.
@@sulaim4n180 idk here seems fine, also i got uh too lazy to do tdcs every day so, yeah; ill wait for more concrete studies
1:23 The graphic is wrong, a 9 V battery can deliver around 500 mA @ 9 V, more than a hundred times the 1-4 mA used by TDCS.
The amount of mA depends on the conductance. With a a conductance of 1 kOhm, 1V corresponds to 1mA.
Impedance of human skin varies anywhere between 1 and 25 kOhm, depending on how well you prep. As such, 9 volts is not unrealistc. Most tDCS machines ha a range up to 25 volts