Submitted by Martinjg_ge t3_123eqnz in askscience
ECatPlay t1_jdvu65s wrote
>I mean, the water molecule is split somewhere
I think you are getting hung up thinking of it as the water molecule. Keep in mind water is a sea of molecules, with a lot of exchanges going on:
H2O ⇌ H^+ + OH^-
OH^- + H2O ⇌ H2O + OH^-
H^+ + H2O ⇌ H3O^+
H3O^+ + H2O ⇌ H2O + H3O^+
So when the hydrogen in a water molecule near the cathode accepts an electron to start forming H2, the remaining OH^- doesn't itself have to migrate to the anode to be oxidized to O2. It just has to exchange with a neighboring water molecule's hydrogen, so now there is a new OH^- a little closer to the anode. So you end up with H^(+)'s being transferred along through the aqueous medium, something like a bucket brigade, to keep supplying H^+ to the cathode and OH^- to the anode, but not necessarily the same H or O in each transfer.
H3O^+ + H2O + H2O + H2O ->
H2O + H3O^+ + H2O + H2O ->
H2O + H2O + H3O^+ + H2O -> -> ->
H2O + H2O + H2O + OH^- ->
H2O + H2O + OH^- + H2O ->
H2O + OH^- + H2O + H2O -> -> ->
In effect you have H^(+)'s being passed along in one direction, and OH^(-)'s being passed along in the other direction.
(Edit: italicized the initial H and O)
Miss_Understands_ t1_jdzgggw wrote
I must say, that is an exceptionally good answer -- good both for experts and beginners.
Martinjg_ge OP t1_jdzqp6x wrote
amazing, thank you very much! so like a row of people carrying sandbags and giving them to the person next to them?
ECatPlay t1_je0ed1x wrote
Very much so, in that adding a sandbag to one end of the chain ultimately results in a sandbag, albeit a different one, being delivered to the other end of the chain. And unlike a Newton's Cradle (with simultaneous transfers), this is a much less orderly process. Sometimes a sandbag gets passed back before going on, or someone has to wait for a sandbag, etc. This makes it a much slower process than say electrical conductance in a wire.
Martinjg_ge OP t1_jee6b7e wrote
thank you very much i always thought of water as a pot of rice, of fixed, unchangable, determined molecules. so "water" is not just a mix of water, but it's own dynamic system comparable to how in metal electrons just fly around, just that not the electrons but also entire molecules of H and O just swap back and forth.
thank you so much for taking the time to explain it to me!
ECatPlay t1_jefce04 wrote
> i always thought of water as a pot of rice, of fixed, unchangable, determined molecules
Well you aren't wrong, it all depends on the timescale you are thinking about.
Water molecules are constantly in motion. This is what 1 picosecond of movement in a water droplet at 0 C looks like. They do move around a lot, and a lot of collisions take place in between even diffusion controlled reactions like H-abstraction (timescale 10^(-9) sec).
But relative to molecular vibrations, for instance, they are barely moving at all. Bond stretching vibrations (O-H stretch timescale ~10^(-13) sec), are orders of magnitude faster than collisions. And electronic transitions are several orders of magnitude faster than that (timescale ~10^(-15) sec), so thinking of the atoms and molecules as "fixed" in space would be an excellent picture of them on that timescale. Thinking about an electrical conductor, instead of an H^+ transfer medium, for instance.
[deleted] t1_jdwih47 wrote
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