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Degree of ionisation (1 Viewer)
- Thread starter AnimeX
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I probably wouldn't use the word 'ability'. I think degree of ionisation is more so the extend to which the substance will dissociate or the proportion of particles that have dissociated. i.e. high degree of ionisation means the majority or virtually all of the particles will dissociate into ions (like with HCl), low degree of ionisation means only a small percentage of the particles present will dissociate into ions (e.g. acetic acid).
HeroicPandas
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Add water --> dilution --> decrease acidity --> increases pH
so A or C
} + H_2O_{(l)} \rightleftharpoons CH_3COO^-_{(aq)} + H_3O^+_{(l)})
If we decrease acidity...that means less H3O+ ions, by Le Chatelier's Principle, a disturbed system shifts to counteract change, hence shifts to the right to produce more H3O+, increasing deg of ionisation
is this correct?
only thing i can think of because increasing vol. of water will have no effect
so is it C?
EDIT: ITS IN BOLD
so A or C
If we decrease acidity...that means less H3O+ ions, by Le Chatelier's Principle, a disturbed system shifts to counteract change, hence shifts to the right to produce more H3O+, increasing deg of ionisation
is this correct?
only thing i can think of because increasing vol. of water will have no effect
so is it C?
EDIT: ITS IN BOLD
Last edited:
hey, when you say increase acidity why does that mean less H3O+? I thought the more acidic something was, the more H3O+?Add water --> dilution --> decrease acidity --> increases pH
so A or C
If we increase acidity...that means less H3O+ ions, by Le Chatelier's Principle, a disturbed system shifts to counteract change, hence shifts to the right to produce more H3O+, increasing deg of ionisation
is this correct?
only thing i can think of because increasing vol. of water will have no effect
so is it C?
EDIT: and yes it is C , can you further explain it though?
Hi, but what does water do to it? I'm still confuzzled
someth1ng
Retired Nov '14
The answer is C.
Obviously, if you dilute an acid, pH increases (less acidic) so that leaves A or C.
Degree of ionisation refers to how many acetic acid molecules will break apart to form ions, that is, as a proportion of all acid molecules, how many of them will dissociate. To explain this, the Le Chatelier's principle reference is correct.
Obviously, if you dilute an acid, pH increases (less acidic) so that leaves A or C.
Degree of ionisation refers to how many acetic acid molecules will break apart to form ions, that is, as a proportion of all acid molecules, how many of them will dissociate. To explain this, the Le Chatelier's principle reference is correct.
HeroicPandas
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sorry made a mistake, sorry for the confusion
In this question, imagine this chemical equilibrium in ur mind!
Add water --> dilution --> decrease acidity --> less H3O+ ions --> system wants to produce more H3O+ to compensate for the loss (Le Chatelier's Principle) --> equation shifts to the right to produce mroe H3O+ --> shifting to the right means more acetic acid molecules will ionise into ethanoate and hydronium ions
Last edited:
someth1ng
Retired Nov '14
^what?
HeroicPandas
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noalternatively you could use c1v1=c2v2 you'll see that the value of c decrease and dumping that back into -log(conc) you'll see that rise
Firstly,
secondly, acetic acid doesnt not completely ionise and hence u dont know the exact concentration of H+, hence u cannot find the exact pH
thanks, this makes much more sense!sorry made a mistake, sorry for the confusion
In this question, imagine this chemical equilibrium in ur mind!
Add water --> dilution --> decrease acidity --> less H3O+ ions --> system wants to produce more H3O+ to compensate for the loss (Le Chatelier's Principle) --> equation shifts to the right to produce mroe H3O+ --> shifting to the right means more acetic acid molecules will ionise into ethanoate and hydronium ions
so, just confirming: acetic molecules ionising to ethanoate and hydronium is correct, in terms of wording?
someth1ng
Retired Nov '14
Acetic acid can react with water to produce acetate and hydronium ions in solution.
The problem with yours is that you forget to mention water so you can't make hydronium ions.
The problem with yours is that you forget to mention water so you can't make hydronium ions.
Sorry to start the thread up again, but just to point out an error. The relative concentration of each of the products (bar water) would remain the same (the concentration of the species in the above equilibrium would be diluted by the same factor).
Hence, it isn't the fact that there is a decrease in hydrogen ions, but rather than there is an increase in the water species which drives the equilibrium reaction forward.
Hence, it isn't the fact that there is a decrease in hydrogen ions, but rather than there is an increase in the water species which drives the equilibrium reaction forward.
