The Periodic Table

> We are not surprised
as we recall the general observation that in the absence of
solvation or counterions, multiply charged molecular ions
are rarely stable relative to the loss of an electron and/or
bond cleavage

DHMO

> The presence of F2^2– ion in the condensed
phase has been suggested as part of discussions of terms
of the NMR spectra of concentrated fluoride ion solu-
tions and explicit quantum chemical calculations of F2^2–
hydrates.

pentavalentcarbon

4:33 AM

But those chemical environments are very different.

Solvation of any weird species tends to be a very stabilizing interaction.

DHMO

i'm more interested in its electron structure

all of its orbitals are filled

pentavalentcarbon

So here is something interesting about MO filling diagrams.

Sure, you can get information about relative energies and bond orders.

But because you don't know the absolute energies of the MOs, you can't tell if all the electrons are bound.

The comment about "multiply charged molecular ions are rarely stable relative to the loss of an electron"?

DHMO

what does bound mean?

pentavalentcarbon

Certainly the second electron is in an MO above the ionization energy of $\ce{F_2^-}$,

Electrons are bound to atoms and molecules and ions, no?

Well, sometimes they like to become unbound.

The paper is saying that the 2nd electron won't stay attached to the ion without a lot of help.

It needs something to stabilize it.

This is why you tend to not see multiple anions.

DHMO

By the way, since you cannot see it:

pentavalentcarbon

4:40 AM

(I did get a copy of that Science paper)

DHMO

> Although 28 is overall a dication, the bonding about the central carbon is 10-C-5. Various types of evidence support our claim that it is in fact a TBP ten-electron species rather than the Td 8-C-4 species, 29.

So you can stop talking about how pentavalent carbon is a mistake

pentavalentcarbon

Please don't tell me pentavalent carbon isn't a mistake when you don't know what "electrons being bound" is...

Also both 28 and 29 are pentavalent.

DHMO

@pentavalentcarbon true, can you teach me?

pentavalentcarbon

It's just a terminology thing.

You know how H2 has 2 electrons, right?

DHMO

yes

pentavalentcarbon

4:44 AM

Those two electrons are said to be bound.

It's that simple.

DHMO

eh, what

pentavalentcarbon

The electrons are bound to the molecule. They don't want to fly off unless you add sufficient energy.

Where are you in chemistry right now? Like, what part of your textbook or what topics?

DHMO

no, i'm just researching about hypervalency to answer a question on main

@pentavalentcarbon you must know this: does your diamond form consist of atoms arranged in a hexagonal shape?

pentavalentcarbon

I've answered most of your questions, answer mine :(

that is, where are you in your chemistry education?

DHMO

rate of reaction

pentavalentcarbon

4:51 AM

Ok, so that would be towards the end of a middle-difficulty high school class in the US.

DHMO

yes

pentavalentcarbon

I think...that was a long time ago...

I don't know what my diamond form would look like since I would be hard US dollars that it doesn't exist.

DHMO

0

A: Sudgen's concept of singlet linkage

Sugden Above all, his name is Sugden, not Sudgen. What he said He did not say that the octet rule is never violated. On the contrary, he suggested that "the maximum number of electrons in the valency orbit can not [sic] exceed eight". (source) This means, while he denies that the octet rule ...

@pentavalentcarbon what, diamond does not exist?

pentavalentcarbon

5-coordinated carbon crystals? Nooooo

Diamond is tetrahedral, 4-coordinate.

DHMO

well....

I just meant carbon

pentavalentcarbon

4:54 AM

Oh, well, of course it exists.

Yes, the vacancies look hexagonal, very much like cyclohexane.

I have never heard of Sugden, nor his singlet linkage. Hm.

DHMO

that's why I needed to search

pentavalentcarbon

one tip though:

DHMO

and I came up with pentavalent carbon

pentavalentcarbon

Rather than do this:

> Above all, his name is Sugden, not Sudgen.

in your answer,

make an edit to the question.

DHMO

@pentavalentcarbon well, if this was the author's misunderstanding

then it would be better to leave it there

or else I would also not keep the second paragraph?

pentavalentcarbon

4:57 AM

I would personally make the edit because the incorrect name appears in the question title and it might mess up any searches.

DHMO

please do make an edit

then I would delete the first paragraph

pentavalentcarbon

Ok, done, but it will have to go through review because I don't have 2000 rep.

DHMO

@pentavalentcarbon Are you familiar the d-orbitals which you don't have?

pentavalentcarbon

bwaaaaaa?

No I am not

but I can give myself as many orbitals as I want in a calculation

DHMO

Do you have any idea what z2 mean in dz2 orbital?

pentavalentcarbon

5:01 AM

yes

DHMO

what does it mean?

pentavalentcarbon

It refers to the both the shape and the orientation of the orbital along the Cartesian axes.

winter.group.shef.ac.uk/orbitron/AOs/3d/index.html

(this site needs Flash, but is awesome)

See how it's aligned along the z-axis and has a different shape?

DHMO

what does z2 itself mean?

pentavalentcarbon

That turns out to be very complicated and I won't go into it.

DHMO

....

pentavalentcarbon

5:06 AM

I'm not joking, it really is.

You tend to not really understand what it means unless you take a very advanced undergraduate or graduate inorganic chemistry class.

Plus some quantum chemistry.

DHMO

0

A: Sudgen's concept of singlet linkage

Sugden Above all, his name is Sugden, not Sudgen. What he said He did not say that the octet rule is never violated. On the contrary, he suggested that "the maximum number of electrons in the valency orbit can not [sic] exceed eight". (source) This means, while he denies that the octet rule ...

another source yay

I have some knowledge of quantum

@pentavalentcarbon just explain please

pentavalentcarbon

You need to learn about group theory first and I am not going to teach you molecular group theory.

I am going to bed because it's 1 AM here.

DHMO

@pentavalentcarbon I have some knowledge of group theory

pentavalentcarbon

...

I think I know what you're doing, I don't believe you

DHMO

test me

pentavalentcarbon

5:11 AM

What's the point group of planar ammonia?

DHMO

planar ammonia???

i dont know how you can make it planar

pentavalentcarbon

Flattened ammonia, all the atoms are in a plane...

It's a hypothetical molecule.

DHMO

but ammonia is c3v

what

pentavalentcarbon

Well what is it in a planar shape?

DHMO

it is still c3v because it has a lone pair

pentavalentcarbon

5:13 AM

I picked something you couldn't just look up on the internet.

...

That's not how this works.

I am forcing the atoms to all lie in the same plane.

What is the point group?

DHMO

are you expecting c3h

i dont even know how u make it planar

It's hypothetical.

then it is d3?

No and no

alright

5:15 AM

D3 doesn't have any reflection planes.

DHMO

im not very familiar

pentavalentcarbon

It's D3h. I need to go to bed.

(so you were very close)

DHMO

alright

1,3-feeds

5:39 AM

-1

Q: Why Questions are marked as duplicate

When I was new on the stack exchange( now i consider myself an old member(1 month)),the problem i faced was most of my questions were marked as duplicate of other questions. I can't understand that why people mark some questions as duplicate,there are several possibilities,,maybe the person who h...

discussion

DHMO

7:00 AM

Why does HNO3 exist but not HPO3?

orthocresol

7:57 AM

@pentavalentcarbon it's a transition state for inversion :)

My only experience with comp chem so far was to investigate this energy barrier for inversion. And we found one imaginary vibrational frequency for planar ammonia. That was actually all we did haha

DHMO

@orthocresol does the lone pair like go to the other side through the nucleus?

@orthocresol Would you be interested in this question?

1

Q: Structure of chromium trioxide

According to most sources, $\ce{CrO3}$ has the following Lewis structure (courtesy ChemSpider): However, it is also not planar (courtesy Wikipedia): Implying that there is a lone pair somewhere. What is the electron configuration of the $\ce{Cr}$ atom? Which orbital is responsible for the...

molecular-orbital-theory molecular-structure

Loong

@MelanieShebel ok, I see.

DHMO

8:23 AM

why does mercury cathode prefer reducing sodium ion rather than hydrogen ion?

@Loong

Loong

overpotential

DHMO

eh....

why is there overpotential?

@AaronAbraham are you familiar with redox/chemical cells?

Aaron Abraham

Sorta...why?

DHMO

let's say I have a chemical cell consisting of two beakers connected by a KNO3(aq) salt bridge

Aaron Abraham

(I'm still in high school...I doubt I'd be of much help though...)

DHMO

8:36 AM

the left beaker has KI(aq) and the right has Fe2(SO4)3(aq)

Aaron Abraham

Okayy...

DHMO

the electrode is inert platinum

Aaron Abraham

Fine...

DHMO

connected to a voltmeter

which has reading

Aaron Abraham

Hmm

DHMO

8:37 AM

so iodide ion is oxidized to iodine and ferric ion to ferrous ion

The reading please?

Don't care

....

problem: would my cell still work if I replace ferric sulfate solution by acidified potassium dichromate solution?

Aaron Abraham

continue..

Give me a minute...

DHMO

8:45 AM

@AaronAbraham any idea?

Aaron Abraham

Yep...

DHMO

which is?

Aaron Abraham

Another minute, sorry.......I had to drink my coffee while it was still hot :P

Wait for it...

Wait for it....

Do you happen to know what the electrodes are made of?

DHMO

13 mins ago, by DHMO

the electrode is inert platinum

Aaron Abraham

Ah..

I don't seem to see a problem...the cell ought to work....

The reduction potential of potassium's ..

Is greater than that of iodine.....

DHMO

8:52 AM

@AaronAbraham well, I thought anions are not attracted to cathodes

Aaron Abraham

pretty much like your ferric...

Wait..

This is an electrochemical cell right?

DHMO

chemical cell

not sure what the difference is

Aaron Abraham

So the cathode here's positively charged....in an electrolytic cell the cathode's negatively charged...

This is an electrochemical cell...

DHMO

what is this

Aaron Abraham

10

Q: Are cations always positively charged?

From what I was taught in middle school, cations are those ions that move towards the cathode, likewise anions are those ions which move towards the anode. I didn't have issues with this back then, since all we studied were electrolytic cells. But now that we've crossed over to electrochemical c...

electrochemistry

Electrochemical cell

An electrochemical cell is a device capable of either generating electrical energy from chemical reactions or facilitating chemical reactions through the introduction of electrical energy. A common example of an electrochemical cell is a standard 1.5-volt cell meant for consumer use. This type of device is known as a single Galvanic cell. A battery consists of two or more cells, connected in either parallel or series pattern. == Half-cells == An electrochemical cell consists of two half-cells. Each half-cell consists of an electrode and an electrolyte. The two half-cells may use the same...

Electrolytic cell

An electrolytic cell is an electrochemical cell that undergoes a redox reaction when electrical energy is applied. It is most often used to decompose chemical compounds, in a process called electrolysis—the Greek word lysis means to break up. When electrical energy is added to the system, the chemical energy is increased. Similarly to a galvanic cell, electrolytic cells usually consist of two half cells. Important examples of electrolysis are the decomposition of water into hydrogen and oxygen, and bauxite into aluminium and other chemicals. Electroplating (e.g. of copper, silver, nickel or chromium...

DHMO

8:56 AM

@AaronAbraham no. it is the positive electrode, but it is not charged.

and cathode attracts cations

Aaron Abraham

......

The first link...shares my earlier confusion...

DHMO

now, idea?

Aaron Abraham

Let's clear up one thing first...

Cations are always positively charged right?

DHMO

@AaronAbraham yes

Aaron Abraham

The cathode in an electrolytic cell is negatively charged....but the cathode in an electrochemical cell is positively charged...

DHMO

8:59 AM

@AaronAbraham well, i wouldn't call it charged, but whatever

Aaron Abraham

....

Ah well, that's how I was taught it...

DHMO

alright

@AaronAbraham where does this sentence come from?

Aaron Abraham

Give me another minute will ya? I'm checking up the electrochemical series on Wikipedia....my textbook doesn't have 'ferric'....so wait a bit...

DHMO

@AaronAbraham ferric just means Fe^3+

ferrous means Fe^2+

Aaron Abraham

I corrected it a while back...

Now be a good water molecule and put up with me...

Ramanujan

9:04 AM

@AaronAbraham what do you mean by good water molecule?

DHMO

@Ramanujan look at my name

Gavin Machell

@Ramanujan DHMO = dihydrogen monoxide aka water

Ramanujan

Ah i got it, dihydrogen mono oxide

Aaron Abraham

(@DHMO, darn! You could've gotten him to sign that petition of yours ;) )

DHMO

@AaronAbraham well, you mentioned water molecule first

Aaron Abraham

9:07 AM

But he didn't get it back then..... whines ....

Ramanujan

Aaron Abraham

I'm trying to work here please...

Ramanujan

Why last bond (CH) doesn't follow sequence of increasing of enthalpy of bond!

?

DHMO

interesting

Ramanujan

@DHMO can you answer?

DHMO

9:11 AM

@Ramanujan i am thinking

Aaron Abraham

Water molecules don't think....

(I'm typing out your electrochem. bit right now...)

DHMO

@AaronAbraham thanks

Ramanujan

@AaronAbraham after that please help me

Aaron Abraham

@DHMO I'll ping ya after I'm done...

DHMO

ok

Gavin Machell

9:18 AM

@Ramanujan C-H bond enathalpies. I guess the bonds in CH4 are sp3 hybrids, in CH3 they would be sp2 hybrids, in CH2 they'd be sp hybrids and in CH then the bond would be between a p orbital on the C and the H s orbital so no hybridization at all. Therefore a weaker bond and lower enthalpy

DHMO

@GavinMachell nice explanation

Ramanujan

@GavinMachell it might be

DHMO

adding to @Gavin 's answer:
the C-H bond in CH4 is sp3-s
the C-H bond in CH3 is sp2-s
the C-H bond in CH2 is sp-s
the C-H bond in CH is p-s

@Ramanujan so the sequence is broken

Aaron Abraham

@DHMO Keeping this in mind first: If a species has a high reduction potential it has a high tendency to get reduced, that is, it is a very good oxidizer. The reduction potential is inversely proportional to the oxidation potential. Going by the same logic...if a species has high oxidation potential it has a high tendency to get oxidized, that is, it is a good reducing agent. Reduction and oxidation potentials are inversely proportional to each other (Continuing...)

(The chat box doesn't permit long messages :( )

Gavin Machell

@DHMO Much more lucid than mine DHMO

DHMO

9:21 AM

@GavinMachell it is based on yours

> If I have seen further it is by standing on the shoulders of giants.

2

-- Isaac Newton

Ramanujan

"Satisfaction of one's curiosity is one of the greatest sources of happiness in life."

Aaron Abraham

(Continued) If a species has a high reduction potential (high tendency to act as an oxidizer) then it is also said to have a low oxidation potential (low tendency to act as a reducer). Clear with this bit?

(Continuing...)

DHMO

@AaronAbraham yes

Aaron Abraham

(Continuing based on the electrochemical series from wikipedia)

Standard electrode potential (data page)

The values of standard electrode potentials are given in the table below in volts relative to the standard hydrogen electrode and are for the following conditions: A temperature of 298.15 K (25 °C); An effective concentration of 1 mol/L for each aqueous species or a species in a mercury amalgam; A partial pressure of 101.325 kPa (absolute) (1 atm, 1.01325 bar) for each gaseous reagent. This pressure is used because most literature data are still given for this value rather than for the current standard of 100 kPa. An activity of unity for each pure solid, pure liquid, or for water (solvent)....

Wait for it...

DHMO

I'm trying very hard to deduce the bond order of CH3 from MO

Aaron Abraham

9:30 AM

Side note: The reduction of 2H+ is arbitrarily assigned a neutral value- Zero volts, and I'll be referring to reactions (oxidation-reduction) as Upper-scale (having negative/low reduction potential) and Lower-scale (having positive/high reduction potential) reactions...

DHMO

But I keep getting funny results

@AaronAbraham you're diverting now

Aaron Abraham

(Continuing...)

Wait, @DHMO how?

DHMO

alright, that's a side note, so I don't complain

please continue

Aaron Abraham

O.o

(You do realize, my explanation is probably just going to be a substitute till Loong gets here...continuing anyhow...)

DHMO

just continue

Aaron Abraham

9:32 AM

Fine, fine...

In your first case, you dealt with 2I- +2e ----> I_2 in the left hand cell and Fe^3+ + 1e ----> Fe^2+ in the right hand cell (Continuing...)

DHMO

you're just repeating my question, no offence

Aaron Abraham

In your second case, you replace Fe^3+ with K^+ (None taken....and continuing......I'm trying to deal with the space limitations of the chatbox...so bear with me)

DHMO

no i didn't

i replaced ferric ion with dichromate ion

potassium ion does not reduce

Aaron Abraham

O.o

Why not?

DHMO

look at the table

it is at the top

Aaron Abraham

9:39 AM

The dichromate's supposed to be a spectator ion...just like the sulfate....(looking at the table)

DHMO

nope.

dichromate is a strong oxidizing agent

Gavin Machell

in a redox situation, acidified dichromate is unlikely to simply "spectate"

@DHMO exactly

DHMO

@GavinMachell forgive him, he's new to this

Aaron Abraham

-_-

Gavin Machell

@DHMO Aah. I didn't realize you were playing devil's advocate.

DHMO

9:42 AM

and you still haven't come to my problem

no offence, @AaronAbraham

Aaron Abraham

( @Loong you're presence is urgently required at The Periodic Table )

DHMO

@GavinMachell could you solve my problem?

Gavin Machell

What is it?

Loong

@AaronAbraham ?

DHMO

> let's say I have a chemical cell consisting of two beakers connected by a KNO3(aq) salt bridge
the left beaker has KI(aq) and the right has Fe2(SO4)3(aq)
the electrode is inert platinum
connected to a voltmeter
which has reading
so iodide ion is oxidized to iodine and ferric ion to ferrous ion
problem: would my cell still work if I replace ferric sulfate solution by acidified potassium dichromate solution?

@GavinMachell @Loong ^

Aaron Abraham

9:44 AM

(Now I'll play advocatus diaboli ....)

DHMO

@AaronAbraham good luck

Aaron Abraham

@Loong DHMO's problem's the problem...

Gavin Machell

@DHMO No, because the original cell had the Fe2+ being oxidised and you can't oxides dichromate

oxidise

DHMO

@GavinMachell nope.

my fault, I meant ferric ion reduces to ferrous ion

Aaron Abraham

(Playing my bit here: @DHMO 's argument hardly has any punctuation, he writes in clauses, doesn't format his symbols correctly, believes that the ferric is oxidised to ferrous, lays no emphasis on the voltmeter reading, nor does he mention how the voltmeter's connected. Gentlemen, clearly DHMO is asking a question not worthy of your consideration. It is a poorly framed question, peppered with errors of all sorts. I rest my case. Advocatus Diaboli out......

Gavin Machell

9:52 AM

Sorry, my booboo, Fe3+ --> Fe2+ in the original cell - that's a reductive process and that will drive the 2I- --> I2 in the LHS cell. So acidified dichromate will also work as a reductive process causing the oxidation of I-

Aaron Abraham

O.o

@GavinMachell The K^+ is oxidized in the RHS cell, right?

DHMO

@AaronAbraham nope

@GavinMachell my problem is... i don't think anion is attracted to cathode....

Aaron Abraham

......

DHMO

K^+ cannot be oxidized

it is already in the maximum oxidation state

Gavin Machell

@AaronAbraham Need a reductive process in the RHS cell

Aaron Abraham

9:55 AM

CRAP.....hold it...I meant 'reduced'....thanks DHMO

DHMO

K^+ does not reduce

Aaron Abraham

WTF

DHMO

it can, but it usually does not

Aaron Abraham

No No

DHMO

K^+ is very stable

Aaron Abraham

9:56 AM

K^+ gets reduced...is what I'm saying..

DHMO

no it does not... is what I'm saying..

Aaron Abraham

emphasis on GETS...

Why not???

DHMO

because K^+ is very stable

look at the table

it is at the top

Aaron Abraham

Wait...then what happens to Na^+ when you electrolyze salt water?

DHMO

depends on the cathode

it usually just stays in the solution

Gavin Machell

9:57 AM

You get hydrogen produced

DHMO

unless the cathode is mercury

in which case mercury/sodium amalgam forms

Aaron Abraham

....

Gavin Machell

In which case you get a sodium amalgam

Aaron Abraham

Alright, my bad...

I capitulate....spare me the pain..

DHMO

@GavinMachell my problem is, I thought anions do not get attracted by cathodes...

Aaron Abraham

9:58 AM

Wait, I thought I already answered that part of the question...

Gavin Machell

See your point about the Cr2O4 2- ion. Gimme a mo with a pen and paper

DHMO

@AaronAbraham no, you did not

Aaron Abraham

....

DHMO

the cathode is called the positive electrode

Aaron Abraham

1 hour ago, by Aaron Abraham

The cathode in an electrolytic cell is negatively charged....but the cathode in an electrochemical cell is positively charged...

DHMO

10:00 AM

it does not mean the electrode is positively charged

Aaron Abraham

Now I'm totally lost...lemme get some water, arguing with DHMO's made me thirsty...

DHMO

I am water

Aaron Abraham

But you aren't exactly drinkable...no offense ..

DHMO

@GavinMachell any idea?

Aaron Abraham

Anyone happens to know if monomolecular-layers can be created on an adsorbent entriely through Chemisorption?

@pH13-YetanotherPhilipp Herr Thüringer, is physical chem your thing by any chance?

^^

Gavin Machell

10:10 AM

The dichromate system is electrochemically analogous to the Fe2+/Fe3+ system. It shouldn't matter that the dichromate ion is negatively charged to start off with. It should still suck electrons off the cathode and get reduced to Cr3+ creating an electrochemical potential. So, you'd get a reading of 0.79V. Now, if any current were to actually start flowing, i.e. if there would actually be a reaction - I doubt it.

DHMO

@GavinMachell what do you mean by a reaction?

why doesn't it matter if the dichromate ion is negatively charged?

Gavin Machell

Well, with a perfect voltmeter - i.e. infinite resistance - no electrons will actually flow between the electrodes so no reaction will actually occur and the voltmeter will measure the full (theoretical) cell potential of 0.79V. If any electrons were to flow, then the cell would run into the problem you've identified which is that as electrons

build up on the electrode (I'm not going to commit as to whether it's the anode or the cathode) on the RHS then the dichromate ions are going to be repelled.

DHMO

are you answering my second question?

Gavin Machell

@DHMO As far as calculating the cell potential is concerned, no, it doesn't matter. As far as the reaction actually proceeding, then yes, it does matter.

DHMO

@GavinMachell but why doesn't the dichromate get repelled by cathode?

if cation is attracted to cathode?

Aaron Abraham

10:19 AM

.....

Gavin Machell

@DHMO Well, it does, which is why I think the reaction would not actually proceed. But in terms of the cell potentials, which is basically the energetics involved, then the reaction is spontaneous and therefore you'd get a potential.

DHMO

whaaaaat

Gavin Machell

@ DHMO Do you have a set of standard electrode potentials to hand?

DHMO

yes

but for you to get any reading, you would have to have the reaction occurring?

Gavin Machell

@DHMO No, in fact, experimentally, you get values that are closer to the theoretical cell potentials when no reaction is occurring i.e. when the resistance of the voltmeter is infinite and no current is flowing. As soon as current starts flowing, then you get resistive effects occuring and the measure energy per coulomb drops.

DHMO

10:27 AM

what... you mean the dichromate does not actually reduce to chromium ion?

Gavin Machell

@DHMO Well, not exactly, but it has the potential to. Hence the term "potential" difference!

DHMO

@GavinMachell what.....

what on earth is this

Gavin Machell

@DHMO It's analogous to a working cell in an electric circuit. The potential developed by the cell drops as the resitsance of the circuit decreases.

DHMO

I see

Gavin Machell

@DHMO So to get the most accurate reading between two actual half cells, you'd want zero current to flow in any case.

DHMO

10:32 AM

I see

Gavin Machell

@DHMO Which means no reaction.

DHMO

alright

but why is it depicted that reactions happen?

like in the usual cells

Gavin Machell

Because the chemical energetics work out okay. So, the chemical potential can be worked out as 0.79V. However, as you point out, if the reaction does proceed then the cathode becomes negatively charged with electrons coming from the iodide at the anode and that builds up an electrostatic barrier to the reaction of the dichromate, also negatively charged, at the cathode.

DHMO

thank you

@GavinMachell why does permanganate reduce to +4 in alkaline medium but +2 in acidic medium?

(MnO2 and Mn^2+ respectively)

It amazes me, how most catabolic reactions are exothermic yet bond-breaking is endothermic; and how most anabolic reactions are endothermic yet bond-forming is exothermic.

Gavin Machell

@DHMO That's a very good question. The answer probably has a lot to do with the reduction potentials of H+/H2O/OH- Allow me to consult the table a moment.

DHMO

10:40 AM

@GavinMachell ok, thanks

I'm sure OH- is not reduced

nor is it oxidized

@DHMO although pyrolysis and electrolysis are endothermic

pH13 - Yet another Philipp

@AaronAbraham just ask your question, but probably no ;)

!!img/performic acid

!!img/periodic acid

10:50 AM

@DHMO What happens during the electolysis of water? Hydrogen and oxygen are produced. Hydrogen at the cathode (where reduction of H+ occurs) and oxygen at the anode (where oxidation of OH- is happening)

DHMO

yes

i have to go now

i'll come back soon

Gavin Machell

But to answer your first question, I think that it is mostly to do with the availability of H+. I've done plenty of oxidations using acidified manganate when I have ended up with a lot of brown MnO2 - usaully because I ran out of acid. It takes 8H+ to mop up all the oxygen on MNO7- to take the Mn all the way to Mn2+ If there isn't enough H+ (at high pH for example) then you get MnO2

That's almost certainly not the complete answer, but it fits.

MnO4− + 8 H+ + 5 e− ⇌ Mn2+ + 4 H2O +1.51
HO2• + H+ + e− ⇌ H2O2(aq) +1.51

That may well have something to do with it.

Transcript for