Talk:Sulfuric acid/Archive 1
This is an archive of past discussions about Sulfuric acid. Do not edit the contents of this page. If you wish to start a new discussion or revive an old one, please do so on the current talk page. |
Archive 1 |
Sulfuric Acid Drain Cleaners
Please maintain a neutral POV on this page related to the sulfuric acid drain cleaner question. Whether or not sulfuric acid drain cleaners should be banned for sale to the public is currently being debated on the federal level, and is discussed in the drain cleaner article. — Preceding unsigned comment added by 68.194.91.203 (talk) 08:27, 8 September 2005 (UTC)
Need citations
"Is credited to" and "is sometimes credited" need to cite sources. Dfeuer 20:11, 11 February 2006 (UTC)
keep "Vitriol" as a separate entry
As a writer, the phrase "To hurl Vitriol" is useful, and it is useful to be able to easily look up the origins of the word.
Vitriol seems to have a greater historical context. With a simple link from page to page one can easily see that both compounds are the same and leave historical context of vitriol intact.
- I agree. I have removed the suggested merge. Physchim62 15:20, 16 October 2005 (UTC)
I'm re-suggesting the merging of the two articles, to a point: the information about the history and chemical composition of sulfuric acid is already covered on the sulfuric acid page. There is the point about the phrase "to hurl vitriol", but Wikipedia is not a dictionary. The vitriol page should remain, but should focus on information pertinent to the word itself, perhaps including a bit about the fake alchemy acronym, and its use in alchemy - but all the duplicated info should just be replaced with a link to sulfuric acid. Pjrich 03:22, 13 December 2005 (UTC)
- I don't understand why any information about word history etc. should go in Wikipedia rather than Wiktionary. Dictionaries aren't just about defining things. --Dfeuer 02:24, 25 January 2006 (UTC)
- Wiktionary's "vitriol" entry does have an etymology section, so that's already covered, but areas such as cultural history don't seem to be normally adressed in Wiktionary. Barring massive public outcry I'll remove the merge and just tidy the two articles up a bit as suggested so there's less overlap. Pjrich 20:42, 3 February 2006 (UTC)
- Maybe it would be best to talk to the high poobah Wiktionarians and get their input on the matter. Dfeuer 20:59, 5 February 2006 (UTC)
- I doubt you'll get the high poobah to visit here. But I think what Pjrich said was accurate. We don't currently do word histories on Wiktionary. That doesn't rule out the possibility of doing them someday. Some support the concept in theory, but we do not have any place right now for them. It's not likely to happen very quickly, so hang onto the information for us, for now. --Connel MacKenzie 17:47, 12 February 2006 (UTC) Wiktionary sysop. (Previous statement rewritten.)
The rhyme used in colleges across the world today goes as follows:
Johnny was a Chem student, but Johnny is no more,
For what Johnny thought was H20 was H2SO4.
ALSO: Sulphuric Acid is VERY DANGEROUS and it is common college practice to wear gloves and safety goggles, as well as closed in shoes, hair tied back if it is long, and a lab coat, at all times of handling. DO NOT DRINK OR WASH HANDS IN H2SO4. DO NOT TRY TO CLEAN YOUR CONTACTS WITH IT. IN FACT, WEAR A WHOLE BODY SUIT AND GAS MASK WHEN IN THE RANGE OF 25 METRES OF A FLASK OF SULPHURIC ACID. EXTRATERRESTIAL H2SO4 COMES IN PEACE.
Over to you Charlie.
Links, sulfur and fertilizer
The article now has consistent spelling of sulfur and fertilizer. The article had both American and British spellings. Aluminium was already consistent with other instances of it, even though the rest of the article uses American spelling. I don't mind and I believe it is the preferred scientific spelling internationally.
I removed a lot of redundant links. There were multiple links of some words in the same section, and sometimes in the same paragraph. I left links that were used in other sections since it is a long article. -- Kjkolb 02:34, 19 April 2006 (UTC)
- Thanks for the cleanup. Sulfur is now the preferred spelling for British chemistry usage (e.g., the Royal Society of Chemistry uses it), because it is the IUPAC approved name. Aluminium is likewise the IUPAC name, and the American Chemical Society should be using it (as with caesium)! Walkerma 04:24, 19 April 2006 (UTC)
Nationality of Jabir Ibn Hayyan
158.39.34.35 recently changed the nationality/ethnicity of Jabir Ibn Hayyan in this article from Arab to Iranian. According to the article about him, Ibn Hayyan was born in Iran but moved to Iraq. That article places him in the category "Arab Chemists" but does not describe him anywhere as Iranian. I hope someone more familiar with Wikipedia conventions can determine the correct description. Furthermore, the main article on Ibn Hayyan is named Geber. Should this reference be changed to match? Dfeuer 20:05, 11 February 2006 (UTC)
- I also noticed this at the time, but the books I had didn't help. A web search also left things ambiguous. The probably with famous people is that everyone wants to claim them as one of their own! I have a book at home (now in the attic) on "The History of the Arab Peoples" (yes, chemists do read history) and I seem to recall that the Persians of that time were included as Arabs, certainly the Samanids were. According to Wikipedia the earlier Sassanid Empire was defeated by (you guessed) the Arabs, who brought Islam. So I think that Geber was BOTH Arab AND Iranian/Persian. Walkerma 23:39, 27 February 2006 (UTC)
- The nationality and where abouts can stay in the articles of the persons and not in the article of sulfuric acid. There are several french and german scientists mentioned on the page without giving them the atribut born in where ever everytime they are mentioned. The Islamic or Arabic is another thing. Islam is a religion and if this is found in a religious book its Ok, but if this was found in a scientific book the language in which is written is the atribute to be given. arabic persian sanscrit or what ever. Arabic was bevor but may be its written in persian tahn change it to persian or what ever, but islamic alchemist would be as wrong as christian chemist.--Stone 11:47, 4 April 2006 (UTC)
- The nationality of these individuals should stay, it's significant. --ManiF 11:56, 4 April 2006 (UTC)
- Jabir may be the most troublesome can of worms in classical Arabic. One school of textual criticism would make him a sort of 9–10th century Nicolas Bourbaki. Shimmin 12:15, 4 April 2006 (UTC)
- A quick look in Britannica [1] or Columbia Encyclopedia [2] , and all major Encyclopedia's would tell you that he is an Arab. Jidan 14:41, 4 April 2006 (UTC)
- There are conflicting sources about his ethnicity, but he's defiantly Iranian-born as per your own sources plus the evidence and discussions on Talk:Geber. Don't remove a factual statement. --ManiF 14:54, 4 April 2006 (UTC)
Hi, I am not aware of the nationality of Geber, but I strongly feel that mentioning his country of birth is more important than his religion. From a quick browse around, most scientists in their own pages have their coutries listed, and none I found had a religious connection made explicit in the first few lines. If you really can't agree on where he came from, I think nothing would be preferable than "islamic." -postglock 08:20, 3 May 2006 (UTC)
Jabir ibn Hayyan
Lets agree on NO mentioning of ethnicity or nationality. ITS TOTALLY IRRELEVANT to this article. @ManiF, I know you like this ethnic-crap,your history proves that. But lets leave your ethnic-war hobby at Jabir main article,not here, shall we? jidan 10:57, 3 May 2006 (UTC)
- His place of birth is relevant information, don't remove it. --ManiF 11:00, 3 May 2006 (UTC)
- We can mention both, his place of birth and ethnicity, so it will be: iranian-born arab alchemist ... . But mentioning one without the other will not work. And at that time Tous(his birthplace), was part of the arab empire not Iran. I would favour removing all that ethnic-crap, since its irrelevant to this article.jidan 11:08, 3 May 2006 (UTC)
This is not a history article, his place of birth would it, his ethnicity is disputed. --ManiF 11:12, 3 May 2006 (UTC)
I tried this:His ethnic background is not clear; although most sources state he was an Arab (which he was by Jus sanguinis), some claim he was Persian (which he was by Jus soli). but his ethnic is disbuted as well so this also will not work. If anyboy is really interested if the arab empire was or was not where he lifed or if his ethnic status was or was not arab or persian, should read the main article! The only thing I wanted to state is that islamic is not a good solution. If I change the english biologist Charles Darwin to the christian biologist Charles Darwin (in fact he was a religiuos man!), the impression everybody would get that his religious status had a big influence on his research.--Stone 11:27, 3 May 2006 (UTC)
- Iran at that time didn't exist. It was Arab soil, and a province of the arab empire. And jabir's parents were aborignal arabs from the arabian peninsula. @Manif: This has nothing to do with Sulfuric acid, why dont u get it? If a user is interested in knowing more about jabir's life, he will check his main article. Your motive's are purely nationlastic, as can be seen from other articles you edited. jidan 11:30, 3 May 2006 (UTC)
- @Stone: I know what u mean. But Islamic in this sense is not a relgious term, its a chronological term. All scientists that lived within the arab caliphate, were called just islamic scientist, although some of them were jews and christians. All those scientsist have in common that they wrote in arabic, and did thier work in the baghdad, the capital of the arab caliphate. jidan 11:34, 3 May 2006 (UTC)
- Just because the land was occupied by Arabs at that time, doesn't mean Persia or Iran didn't exist. That's like saying Poland didn't exist in 1940's because the Nazis had occupied it. Regardless, no one is mentioning ethnicity or nationality, these discussion have no place here, Jabir was born in Tus and place of birth is a relevant information, don't censor it. --ManiF 11:43, 3 May 2006 (UTC)
- The Poland argument would bring me to the point making some people born in europe between 1939 and 1945 germans, would be a fun to try. The uprise you would generate would be nice to see. And best you can modify even the biography of living people. They will be get relly angry beeing german by Jus soli. But for know occupation terretory or part of the country or even better freedom fighters or terrorists is a discussion which never will stop, and has no solution.So lets have the place of birth or not, but the real war should be on the Geber main page and be solved there.--Stone 12:32, 3 May 2006 (UTC)
- I agree with you Stone, this is what I said since the beginning. The war should be in Geber page. I still dont get what Sulfuric acid has to do with this. jidan 18:35, 3 May 2006 (UTC)
Jabir left Tous,Khorasan(at that time an arab province) in his childhood after his father got executed. He then moved to yemen, the home country of his parents[3].There he learned to read and write. He lived most of his life in Kufa(Iraq) and Baghdad(Iraq) and wrote all his works in Arabic. So, by culture,nationality and by blood, he is an Arab. Because its irrelevant in this article, any mention of his background will be removed. jidan 10:11, 4 May 2006 (UTC)
- No, there is nothing certain about his culture, nationality and blood. Not much known is about his life expect that he was born in Tus which is a fact you are trying to censor, everything else about his life and background is disputed by contradictory sources. --ManiF 00:38, 5 May 2006 (UTC)
The French translator of an old edition of Sprenger's 'History of Medicine', seeing the name Geber, assumed he was German and rendered it 'Le Donateur'(giver). Geber himself, an alchymist and sufi, would likely have dismissed the matter discussed above as an amusing and artificial irrelevance.
IUPAC recommends "Sulphuric acid" or "Sulfuric acid"?
Which does IUPAC recommend? --HappyCamper 16:48, 10 August 2006 (UTC)
- I think sulfur in stead of sulphur, so sulfuric acid, and so for all compounds which have the word sulfur/sulphur in the name?
- By the way, is it an idea to put all those spelling things into one document (e.g. IUPAC recommended spelling of substance names) or something similar, and making a link there on top of the page (like a {{for}} or {{see also}}, e.g. {{alternative substance naming}} with parameters sulphur and sulfur on the sulfur page, redirecting to a subheader on the naming page). It would make life easier on which policy the chemistry part of Wikipedia has adopted for pagenaming (if a dispute, make a link in the first line to that document). And in that way we can eradicate all spelling-sections. With a bit of careful thinking it could even be used for pages where systematic naming vs. trivial name is a problem. --Dirk Beetstra T C 17:09, 10 August 2006 (UTC)
- Let's bring this up on Wikipedia:WikiProject Chemistry. I think expanding this idea might be useful. --HappyCamper 17:17, 10 August 2006 (UTC)
(copied to Wikipedia_talk:WikiProject Chemistry --Dirk Beetstra T C 17:34, 10 August 2006 (UTC))
Basilius Valentinus is "backronym". What does it signify?
Some equations regarding oxidation of iron by sulfuric acid are a bit on the dodgy side; e.g. Fe3+ being rendered as Fe+++ - should we fix these up? LudBob 09:23, 5 October 2006 (UTC)
Uses
from Sulfur-iodine cycle
"Additionally, the sulfur-iodine cycle has a much lower maximum operating temperature compared to traditional electrolysis."
Isn't this wrong - can someone please check and correct. Thanks.87.102.7.133 14:43, 31 January 2007 (UTC)
removed for now:
" With an efficiency of around 50% it is more attractive than electrolysis,"
" Additionally, the sulfur-iodine cycle has a much lower maximum operating temperature compared to traditional electrolysis."
The efficiency fact needs qualification - is this theorecical or practical?
The second statement as far as I can see is just wrong - it's the other way round.87.102.7.133 15:41, 31 January 2007 (UTC)
formula
what is the formula for sulfuric acid in acid rain??? please help!O~O —The preceding unsigned comment was added by 86.6.160.152 (talk) 16:06, 19 February 2007 (UTC).
- The same as anywhere else in the universe - H2SO4! Walkerma 16:43, 19 February 2007 (UTC)
- Being in water, though, it is ionised into H3O+ and sulfate ions, as described in the article. Walkerma 16:44, 19 February 2007 (UTC)
A good start would be to look in acid rain for such info. It is nicely explained there (as it is here, Martin ;-). Wim van Dorst (Talk) 22:41, 19 February 2007 (UTC).
Citations needed for world production
Tonnes produced per year should have a citation. Mrweatherbee 03:14, 20 February 2007 (UTC)
type of bond
Is this an ionic bond, or a covalent bond? —Preceding unsigned comment added by J Iron Ferrum (talk • contribs) J Iron Ferrum 04:02, 7 April 2007 (UTC)
- Covalent bonds are present in sulfuric acid, as indicated by the lines drawn in the structure drawing. If it gets put with an ionizing solvent such as water or liquid ammonia, it reacts with these compounds to produce something like H3O+ and HSO4−, which is now ionic. Note that even in HSO4−, the sulfur and oxygens are still connected with covalent bonds. Walkerma 06:35, 6 April 2007 (UTC)
I'm still confused, there looks (to me) like there are too many bonds, the maximum possible valence electrons per atom were 8, if it were covalent there would be 2 to each hydrogen (whic can only hold 2) 8 to each oxygen, but 12 valence electrons to Sulfur, also NaCl isn't written with a + or -...J Iron Ferrum 04:02, 7 April 2007 (UTC)
- Sulfur, having low lying d-orbitals, can break the octet rule (as can other 3rd row atoms like phosphorus and chlorine). Regarding NaCl, it is not written with charges for simplicity, but it exists totally as Na+ Cl−, see the crystal structure on that page that shows how the ions pack. When my students write NaCl as Na-Cl, implying a covalent bond, I shout at them...it's ionic! Walkerma 05:30, 7 April 2007 (UTC)
!!!It's sulphuric, not sulfuric!!! (unsigned) Not according to the ACS, the RSC, or IUPAC. Walkerma 05:30, 7 April 2007 (UTC)
Home production of conc. sulfuric acid
Does boiling sulfuric acid drive out the water in a dilute solution, or does it merely liberate sulfur trioxide? I am curious about this: apparently on heating of dilute nitric acid, nitrogen dioxide is liberated.Crappitrash 16:10, 28 May 2007 (UTC)
- Yes, concentrated sulfuric acid can be produced by evaporating dilute aqueous solutions of the acid (for example, by heating an open container of car battery electrolyte liquid). However, I seem to recall that sulfuric acid forms an azeotrope with water at 98% concentration; therefore, attempting to boil water away beyond that point would probably be futile. Also, it would be wise to select containers made of appropriate materials when attempting to concentrate the acid in this way, since fuming, boiling-hot concentrated sulfuric acid will make short work of most household vessels made of metal, such as steel or aluminum kitchen pots. Non-borosilicate glass jars are also not recommended. --Ryanaxp 19:48, 28 May 2007 (UTC)
- Expanding this line of thought, it might be pertinent to list among the forms that are generally used, e.g. battery acid, how it is usually bought for these purposes. That is "5.99 Molar used as battery acid is sold in auto parts stores." Same goes for many common chemicals -- whether they are available retail or to the general public is an important bit of information (with many implications) that wikipedia tends to miss.
Minor wording & grammar cleanup.
Just cleaned up everything before the Ammonium section. Mostly fixed badly-worded, run-on, or confusing sentences. That's one of the biggest problems with WP pages written by experts in scientific subjects; they never bring the language down to a level understandable by a layman. That's unfortunate. Anyway, I attempted to bridge that divide a bit. Keep what ya want, fix what ya don't. 97.82.247.200 20:35, 4 July 2007 (UTC)
- Thanks! This is an important article, and it needs a polish every now & again. Keep up the good work, Walkerma 20:46, 4 July 2007 (UTC)
"is produced in greater amounts than any other chemical besides water"
This statement is not true; production of NaCl is greater than that of H2SO4. Or it could depend on what is meant by "produced": one could argue that H2SO4 is produced by chemical reactions while sodium chloride is merely extracted. But in that case the comparison with water would be utterly irrelevant. Therefore I'm changing the phrase to "is one of the top products of the chemical industry". --Itub 12:04, 5 July 2007 (UTC)
Comic rhyme (again)
It seems that many people think that this encyclopedia would be incomplete without this rhyme. While I think it shouldn't be here at all, I think I could put up with it. However, do we need four versions of it (and more to be added in the future)? If it's that important in popular culture, we need a separate article entitled Comic rhymes about sulfuric acid. I propose to delete all but one from version this article, and include a comment that "many variations exist." Does anyone want to present a case against deletion of variants? Walkerma 17:50, 11 January 2006 (UTC)
- I have removed variants in the past, as well; they keep returning. Still, I think it is good for the article, since a good chunk of the population knows nothing about the acid except this rhyme, which is one of the few, if only, bits of popular oral culture built around a chemical formula. Personally, I think the UK and US variants are sufficiently different to both be included (just one of each), but perhaps that just opens the door to multiple versions; I wouldn't balk if we cut it down to one. (But which side of the pond will be left out?) - DavidWBrooks 18:47, 11 January 2006 (UTC)
- I agree with keeping one, given that it is obviously a popular culture issue to some editors. I say keep an American version, preferably one for which we have some info as to its first recorded (Pre-Wikipedia) use: I have never personally come accross such rhymes on the European side of "The Pond", but that doesn't mean that they don't exist! Physchim62 (talk) 16:16, 14 January 2006 (UTC)
- I've never been sure that the labelling of the variants we have as "American" and "U.K." was indicative of anything other than the nationality of the contributors that added them, as the variant I learned in my (U.S.) chemical education is
- Little Johnny was a chemist
- Little Johnny is no more
- For what he thought was H2O
- Was really H2SO4
- Shimmin 00:04, 28 February 2006 (UTC)
- I've never been sure that the labelling of the variants we have as "American" and "U.K." was indicative of anything other than the nationality of the contributors that added them, as the variant I learned in my (U.S.) chemical education is
- I second the motion for an article devoted to comic rhymes about sulphuric acid. Horst.Burkhardt 09:14, 20 August 2007 (UTC)
Polarity and conductivity
I have left the comment "excellent solvent for many reactions", as this is not specified in Greenwood where the rest of the info. came from Axiosaurus 17:53, 28 October 2007 (UTC)
damn rhymes
I've removed them all because they appear to be a magnet for more and more. This is quite a ridiculous situation. In any case, the rhymes are just of passing interest, and are not directly relevant to the content, so there is no loss to the article. --Rifleman 82 02:48, 4 November 2007 (UTC)
- I've been watching this article for almost three years, and from my experience someone will add a rhyme back in. It seems that hardly anyone knows useful information like current production figures or pKa, but half the English-speaking world has learnt a rhyme about sulfuric acid. I put the comment in about "no more than two please" but people quite often add a third one anyway! Let's cross our fingers and see what happens - I'd prefer it if there were no rhymes. (By the way, I wrote a song about sulfuric acid, maybe I should add that in....but unfortunately only chemists understand lines like, "You ask me why I'm caustic it's 'cause you're just like sulfuric acid."). Walkerma 03:07, 4 November 2007 (UTC)
Are the mnemonics necessary?
From the article - This can be remembered through mnemonics such as: "Do as you oughta, add acid to water.","If you think your life's too placid, add the water to the acid", "A.A.: Add Acid", or "Drop acid, not water", or "Acid to water, like A&W Root Beer" or "Put the king into the water, not the water into the king"
I think these should be removed due to this being an encyclopedia, not a textbook designed to teach scientific procedures.Firish (talk) 22:25, 19 March 2008 (UTC)
- Not to mention that these unsourced and possibly made up mnemonics are pretty bad IMHO. I say get rid of them. --Itub (talk) 12:25, 25 March 2008 (UTC)
- I agree, so I've removed them. -- Ed (Edgar181) 13:00, 25 March 2008 (UTC)
Reaction with water
I believe the statement that, 'sulfuric acid is used in the production of many dried fruits', to be misleading, implying that fruits can be dehydrated with sulfuric acid, which as far as I am aware would yield nothing but an unpleasent mess of carbon; I believe that it is possible that the authour of that statement was intending to refer to sulfur dioxide, which is used as a preservative in some foods, including many dried fruits. I have tagged the sentence with as citation needed. Rob 301 (talk) 18:26, 12 April 2008 (UTC)
- I'm dubious as well. Sulfuric acid can be used as a drying agent—you make sure that it doesn't come into direct contact with the substance you're drying, but it is excellent at removing the water from the immediate atmosphere—but it would seem to be rather expensive to be used for agricultural products. Sulfur dioxide, on the other hand, is commonly used as a preservative in dried fruit. Physchim62 (talk) 11:48, 13 April 2008 (UTC)
oil of vitriol
the first recipe that might be H2SO4 is in the Summa of Pseudo-Geber he calls it a "Solution of Mars" and describes it as "red water" it may or may not be H2SO4. "Oleum vitrioli rubrum"(oil of vitriol) is not recored until the 14th century. source: Vitriol in the History of Chemistry by Vladimir Karppenko and John A Norris, from Chem. Listy vol. 96 2002 pp997-1005. Would any one like this to be added?J8079s (talk) 22:03, 9 October 2008 (UTC)
- Let me explain further
- 1 Jabir (8th century) wrote in Arabic therefore did not "coin the phrase" oil of vitriol
- 2 While the Arabic corpus of Jabir (pseudo-Jabir) contains recipes that will sometimes yield dilute H2SO4 they do not describe it and they date from the 10th century onwards.
- 3 The Latin translations (of the Arabic corpus) do not contain the phrase "oleum vitroli" nor any recipes to make it on purpose.
- 4 The Latin corpus (pseudo-Geber) see above
- 5 The first use of the phrase Oleum Vitrioli is by Paracelsus (1493/4 - 1541). His solution is also dilute.
- 6 Jabir is mentioned in the history section although it needs more explanation
J8079s (talk) 20:23, 15 November 2008 (UTC)
- Hey J8079s, if you've got some relevant info with a more reliable ref than the one pertaining to the removed content, by all means- we're here to build an encylopedia. I expect you understand why I reverted your edit- no edit summary. Cheers, freestyle-69 (talk) 04:12, 16 November 2008 (UTC)
- Yes, I understand I hit the save button by mistake. Still doing my homework on the rest. I've got lots of good sources but my writing skills need work.J8079s (talk) 05:22, 16 November 2008 (UTC)
- Not a problem- if you have good sources and can include them, there's plenty of others who can tidy up the writing side of it. Welcome on board! freestyle-69 (talk) 21:30, 16 November 2008 (UTC)
- Yes, I understand I hit the save button by mistake. Still doing my homework on the rest. I've got lots of good sources but my writing skills need work.J8079s (talk) 05:22, 16 November 2008 (UTC)
ARD?
How about expanding the acronym "ARD" the first time it is used, ". . . have been measured in ARD produced by this process. ARD can also produce . . .". What does this mean?--P Todd (talk) 02:14, 28 December 2008 (UTC)
- Good catch! Fixed it. It is essentially the same as AMD and the link is the same. --MartinezMD (talk) 02:59, 28 December 2008 (UTC)
Geber's ethnic background
There are countless books stating that he was persian instead of arabian though there are the same number of book saying that he was arabian rather than persian. I suggest changing it to muslim polymath instead of potraying is racial background which might be either persian or arabian. He was born in Iran if my memory is correct. hope we can fix it.
--ParthianPrince (talk) 10:20, 10 January 2009 (UTC)
World Sulfuric acid picture is very out of date
Currently, Australia is one of the worlds leading Sulfuric Acid manufacturers and exports millions of tonnes of it.
This acticle needs a more currrent world production image.
Dumoren (talk) 08:22, 16 July 2009 (UTC)
Brimstone
Somewhere should we have a link to Brimstone? (That is a DAB page that links back to sulfur but to mention briefly the history of the word?)
BTW I am UK but Sulfur is, apparently, the accepted official spelling for chemists etc (not sulphur). I presume (but don't know for sure that goes also for derivative forms such as sulfuric, etc. Just to ward off any dsputes about WP:ENGVAR (I have had too many of them today). When subbing, I sometimes find it quite hard to detect what dialect of english is being used. Sometimes it is obvious but sometimes it is really hard to tell, just because the wording is such there are no obvious clues. SimonTrew (talk) 22:13, 5 August 2009 (UTC)
Concentrated sulfuric acid containment
How is this stuff ( > 90%) contained, if it burns through everything? Will Pyrex glass do? I searched around, but I didn't find any info about that, except some kind of coating will be used and the temperature matters. If the temperature is 10-40 Celcius, how? What about if it's around 120 Celcius? Please help! —Preceding unsigned comment added by 91.154.52.137 (talk) 16:56, 29 March 2008 (UTC)
- It doesn't burn through everything. Glass is perfectly adequate; concentrated sulfuric acid for laboratory use is sold in glass bottles. --Itub (talk) 12:57, 1 April 2008 (UTC)
Thanks a lot for the info. But if it's so hot that normal glass would shatter, could it be stored in a heat-resistant (Pyrex, Durax) container (their structure differs from normal glass)?
- If you are planning on working with hot concentrated sulfuric acid and don't know about the appropriate equipment, I think you will be endangering yourself for lack of training, and just looking up this one question on Wikipedia is not going to fix that. I think pyrex glass should be fine. But I hope you have also thought about things such as proper ventilation, what to do in case of spills or fires, appropriate clothes and safety equipment, etc. I suggest looking up a book on lab safety (I'm assuming we are talking "lab scale" here). --Itub (talk) 12:33, 4 April 2008 (UTC)
- I would agree with Itub: if you don't know the answer to this question then you certainly don't know how to handle hot concentrated sulfuric acid. Physchim62 (talk) 14:40, 4 April 2008 (UTC)
Chemicals of this level of danger should never be handled outside of a laboratory or industrial situation that has adequate safety protocols in place and personnel trained in handling and safety of these materials. I read an amateur anodizer's blog where this fool nearly killed himself and caused a major chemical spill by adding water to a silly amount of concentrated H2SO4. The thing practically blew up in his face, melted the idiot's Igloo he was using as a reaction vessel, and then, adding insult to injury, he tried to neutralize the mess with a few boxes of bicarbonate without donning so much as a pair of safety goggles or gloves. Just completely stupid. In writing articles for public consumption, professionals should always be cognizant that their audience may not have their level of experience. It won't stop fools from trying experiments at home, but providing warnings of the dangers involved is nontheless the responsible thing to do. —Preceding unsigned comment added by 68.5.244.173 (talk) 04:35, 16 March 2010 (UTC)
pH of sulfuric acid solution for different concentrations
Dear authors, the article says: < ...Some common concentrations are:
10%, dilute sulfuric acid for laboratory use (pH 1) 33.5%, battery acid (used in lead-acid batteries) (pH 0.5) 62.18%, chamber or fertilizer acid (pH about 0.4) 77.67%, tower or Glover acid (pH about 0.25) 98%, concentrated (pH about 0.1) Since sulfuric acid is a strong acid, a 0.50 M solution of sulfuric acid has a pH close to zero ... > 0.5M solution gives 100*0.5 gram/L or about 5% w/w concentartion. How 0.5M can give pH~0 while 10% gives 10 times weaker pH=1? IMHO all pH values in the table are improper 72.56.180.181 19:03, 30 October 2006 (UTC)Coca
- Sulfuric acid is not completely a strong acid. It is a strong acid for the loss of the first proton, but weak for the loss of the second proton (pKa = 1.99). A 0.5 M solution has a calculated pH of about 0.3: however, at these concentrations (and anything more concentrated), you really need to take account of activity coefficients. That having been said, the vaules in the article look pretty suspect, to say the least. Physchim62 (talk) 08:22, 31 October 2006 (UTC)
Can we be more rigorous about our use of % here, and change it to %w/w? —Preceding unsigned comment added by 136.142.83.168 (talk) 19:22, 2 January 2008 (UTC)
Normality and Molarity are used for concentration in laboratory analysis. Where chemicals are used in industrial production, percentage is more typically seen. The definition used in reporting a solution's percentage concentration typically derive from how it was prepared. For instance, a solution made from a solid dissolved in a liquid is often %w/v; a solution made from two liquids, %v/v (think ethanol in water). If the definition is not stipulated, it's assumed to be w/v. Since this is an encyclopedic article and not a scholarly journal, the description should reflect what is most commonly used for each particular form of the chemical.
In addition, I think the reporting of nominal values here does not need four significant figures. Two is sufficient. I also changed the 18 NORMAL to 18M. Concentrated, 98% sulfuric acid is 18 molar, not 18 normal.68.5.244.173 (talk) 07:44, 16 March 2010 (UTC)
- Those mass fractions are far too precise as well! Battery acid at 33.53% ??!! The stuff you buy in a closed bottle is usually around 38% (d = 1.28), but the stuff in an lead–acid battery which is actually working is less concentrated. I'll see if I can get some refs for all that, and modify it accordingly. Physchim62 (talk) 08:52, 16 March 2010 (UTC)
major form of H2SO4
The picture is showing the minor form of H2SO4. Octet rule is more powerful than oxidation numbers.
File:Http://img517.imageshack.us/img517/5658/tempy.png —Preceding unsigned comment added by 24.7.68.37 (talk) 17:54, 20 October 2009 (UTC)
is sulphuric acid acidic,basic or neutral —Preceding unsigned comment added by 124.184.187.16 (talk) 05:23, 18 March 2010 (UTC)
Is sulphuric acid acidic? Of course. —Preceding unsigned comment added by 193.113.135.112 (talk) 13:01, 22 March 2010 (UTC)
more fictional uses
in pinky and the brain, brain once use sulfuric acid to melt the lock of his cage. just thaught you should add that. —Preceding unsigned comment added by 161.184.193.176 (talk) 02:12, 4 October 2007 (UTC)
I don't think the article needs any "fictional uses". —Preceding unsigned comment added by 193.113.135.112 (talk) 13:10, 22 March 2010 (UTC)
Phases of reagents and products in reactions
I think it adds to accuracy and understanding if the phases of reagents and products are displayed in reactions.
For example: CuO + H2SO4 -> CuSO4 + H2O would be better as: CuO(s) + H2SO4(aq) -> CuSO4(aq) + H2O(l)
The copper actually goes from solid phase to ion in solution. Is there any official policy on this? It is standard practice where I work. 193.113.135.112 (talk) 13:37, 22 March 2010 (UTC)
- I'll just answer myself: "State symbols are omitted unless they are relevant (e.g. thermochemistry, to illustrate precipitation for chemical separation)." from the chem project style guide. In that case I suppose phase changes should be denoted. 193.113.135.112 (talk) 07:57, 31 March 2010 (UTC)
chem notation does not display negative charges correctly
The chem notation swallows the negative charges at the ends of many chemicals. Therefore many displayed chemical reactions are incorrect (charges not balanced). I don't have the time to change them all to old fashioned notation using sub/sup.
I fear the same might be true in many other articles. 193.113.135.112 (talk) 13:40, 22 March 2010 (UTC)
- I can't see a problem: could you give an example? Physchim62 (talk) 15:43, 22 March 2010 (UTC)
- In the Occurence section I see the following:
- "The oxidation of iron sulfide pyrite by molecular oxygen produces iron(II), or Fe2+:
- 2 FeS2 + 7 O2 + 2 H2O → 2 Fe2+ + 4 SO4 + 4 H+
- The SO4 should carry two negative charges. The charge is correctly written in the chem notation, but on the main page it doesn't show for me. Perhaps it's my browser?
- "4 SO2−
4" should look the same as "4 SO42-", but I can't see the negative charge on the former. (Positive charges work fine though.) 193.113.135.112 (talk) 16:19, 22 March 2010 (UTC)
- Are you using a Mac? --Rifleman 82 (talk) 16:24, 22 March 2010 (UTC)
- No, I'm not actually. From home it's all fine, but from work the negative charges just don't show. It's some kind of fairly antiquated windows system running IE 6.0. 81.102.159.33 (talk) 23:07, 22 March 2010 (UTC)
- It's a browser bug. I'm not sure if the chem template can be made to work on IE6... probably would be quite ugly.—Tetracube (talk) 00:08, 1 April 2010 (UTC)
- It could be a font problem, the font not recognizing the minus sign character. Physchim62 (talk) 00:23, 1 April 2010 (UTC)
- Whatever the problem is, I'm probably not the only one having it. There's gotta be a way to fix it. 193.113.135.112 (talk) 11:40, 12 April 2010 (UTC)
- It could be a font problem, the font not recognizing the minus sign character. Physchim62 (talk) 00:23, 1 April 2010 (UTC)
- It's a browser bug. I'm not sure if the chem template can be made to work on IE6... probably would be quite ugly.—Tetracube (talk) 00:08, 1 April 2010 (UTC)
- No, I'm not actually. From home it's all fine, but from work the negative charges just don't show. It's some kind of fairly antiquated windows system running IE 6.0. 81.102.159.33 (talk) 23:07, 22 March 2010 (UTC)
- Are you using a Mac? --Rifleman 82 (talk) 16:24, 22 March 2010 (UTC)
History
If the study of sulfuric acid began in ancient times (Sumerians, 1st Century Romans, Galen), then how can it be said that "Sulfuric acid was discovered by medieval european alchemists." Do you mean "rediscovered"? Ileanadu (talk) 00:57, 23 July 2010 (UTC)
- The ancients and the arabs studied it in the form of vitriol, not real sulfuric acid. I wrote that section, and in the research I found vitriol is not the same as sulfuric acid. According to researches sulfuric the first mentions of sulfuric acid are in thr work of medieval european alchemists. All prvious works use vitriol.
- Anyway, I will change the first sentence to make it more clear. Hope that helps.--Knight1993 (talk) 19:06, 5 August 2010 (UTC)
pumping a sulfuric acid
a sulfuric acid(+90% concentration) is to be pumped at a rate of 0.5 cubic meters per hour at a height of 12 meters, which casing material for the pump is better to be used, an alloy or a carbon? —Preceding unsigned comment added by 202.73.162.194 (talk) 08:02, 17 March 2009 (UTC)
- This is not a forum, so I doubt that anyone will answer your question. Freestyle-69 (talk) 22:04, 17 March 2009 (UTC)
H2SO4 ARE 98% we want to prepare 33.5% How? —Preceding unsigned comment added by 119.160.47.17 (talk) 13:11, 19 June 2009 (UTC)
- Add the acid slowly to the water, constantly stirring. Be very careful. --Chemicalinterest (talk) 00:21, 8 September 2010 (UTC)
Industrial Hazards
Please remove the following statement:
Water should not be used as the extinguishing agent because of the risk of further dispersal of aerosols: carbon dioxide is preferred where possible.
Wikipedia is NOT an instruction manual.
Please see WP:NOT for more examples. Let's pay attention to policy, people. 172.136.253.232 01:00, 26 September 2007 (UTC)
- Instruction manual or not, don't you think that a very important safety consideration is worthy of mention? Norm Reitzel (talk) 17:41, 11 January 2009 (UTC)
- You could reference an instruction manual and say that water is not used as an extinguishing agent. —Preceding unsigned comment added by 96.54.233.25 (talk) 02:41, 15 March 2011 (UTC)
Storage of concentrated sulphuric acid
Will conc.H2SO4 react with glass or plastic?Superdvd (talk) 14:33, 2 November 2008 (UTC)
- No. --Chemicalinterest (talk) 00:14, 8 September 2010 (UTC)
- For that matter, very concentrated sulfuric acid (we're talking 66-degree Baume, reagent grade stuff) will not touch many metals. It's only when moisture (e.g. humidity, or diluted acid) enters the picture that the corrosion sets in. -98.228.254.203 (talk) 02:03, 28 April 2011 (UTC)
bicarbonate of soda
We now have conflicting advice about what to do in case of acid burns - keep bicarbonate of soda handy, but don't use it! This needs to be cleared up - or (my preference) the whole advice portion of the article eliminated. Wikipedia isn't a safety manual. - DavidWBrooks 10:55, 27 October 2005 (UTC)
- It's not conflicting. Sodium bicarbonate is useful for acid spills, so long as they are not on the skin. Physchim62 11:03, 27 October 2005 (UTC)
- Ah, I see. I rearranged the paragraph slightly to help other people from being as confused as me. - DavidWBrooks 12:53, 27 October 2005
(UTC)
- Um no. A solution of Sodium Carbonate or Sodium Bicarbonate will neutralise acid on the skin and thus prevent damage.
- Thanks. I would have done it myself, but I was in the middle of a long series of edits after a page move. Physchim62 13:49, 27 October 2005 (UTC)
- No, no, no. "Irrigation" with copious amounts of water is always the immediate response to acid exposure. Water reacts less violently than nominal bases (even bicarbonate or soda ash), it is more plentiful and more readily available (hence emergency showers and eye washes), it is liquid and hence can "carry" any remaining acid along with it as it flows, and it does not itself cause any irritation, say, to the eyes or mucous membranes, or open wounds. There is NO good reason to use a base unless it is to clean up a spill on the floor or a bench. -98.228.254.203 (talk) 02:14, 28 April 2011 (UTC)
Ibn Hayyan nonsense
I've changed the lines identifying the nationalities of the Muslim alchemists. As most historians will inform you, people in those days would consider the identification as Muslim primary, with Persian or Arab as secondary; they will furthermore proceed to nail into your head that nationalism only started about 200-250 years ago, and should really not be applied to previous eras. And as any scientist will tell you, the nationality of the discoverer of this or that is a matter of irrelevance, or at best an interesting factoid. As a result, I've simply identified them as "Islamic alchemists," with a link to the appropriate article. Thank you. Lockesdonkey (talk) 22:50, 10 July 2011 (UTC)
Perhaps you are being too harsh. In view of the large geographic extent of the Islamic world, there is some point in narrowing down the location of medieval historical figures, without implying that they were of Iraqi, Iranian, or (most anachronistically) Pakistani nationality. However, like many modern scientists whose nationality is a mere factoid, Jabir ibn Hayyan seems to have been quite a cosmopolitan, living and working in several places during the course of his lifetime.CharlesHBennett (talk) 10:52, 15 July 2011 (UTC)
reaction of concentrated H2SO4 with sugar
This is mentioned in two places, which I have tried to harmonize, explaining that the sulfuric acid is a reactant rather than a catalyst. The exothermic reaction involves hydration of the sulfuric to produce hydronium, bisulfate, etc.CharlesHBennett (talk) 11:01, 15 July 2011 (UTC)
Sulfuric acid occurs naturally...
...in the vacuoles of the alga Desmarestia, as well as in the tunic of certain sea squirts such as Phallusia spp.
Unless of course by "naturally occurring" you exclude biosynthesis. — Preceding unsigned comment added by 187.106.61.205 (talk) 04:12, 14 October 2011 (UTC)
- Thanks for the tip! The article actually meant that 100% H2SO4 doesn't occur naturally - I edited that sentence to clarify that point. 100% H2SO4 would burn up even a Desmarestia! However, we had no biology in that section, and thanks to you I easily found a suitable reference which talks about how algae containing H2SO4 were less likely to be eaten than those without. If you want to amend or add to my sentence, go ahead, or reply here. Thanks, Walkerma (talk) 05:41, 14 October 2011 (UTC)
Use in recipes
Spirit of Vitriol has been used in at least one recipe (for To make RASBERRY-DROPS in MS Eales Reciepts 1733). —Preceding unsigned comment added by 85.225.73.203 (talk) 19:26, 25 July 2008 (UTC)
From the main article section:
In 1831, French brioshe merchant Peregrine Phillips patented the contact process, which was a far more economical process for producing sulfur trioxide and concentrated sulfuric acid. Today, nearly all of the world's sulfuric acid is produced using this method.
The word brioshe is not in wikipedia, apparently because of spelling. The word brioche is a French pastry. That must have been what P. Phillips was using H2SO4 for.
someone should fix this in the main article 74.163.169.193 (talk) 23:40, 22 October 2011 (UTC)David
Thanks for pointing that out. It was vandalism. --Rifleman 82 (talk) 02:12, 23 October 2011 (UTC)
Why two images?
File:Sulfuric-acid-2D-dimensions.svg shows all we need to know about the structure of the molecule. So why do we need w:File:Schwefelsäure3.svg in the chembox as well? Are the lone pairs really necessary? Maybe a ball-and-stick model to go next to the space-filling model would be less redundant. Ephemeronium (talk) 13:41, 19 November 2011 (UTC)
- Agree, went bold, and removed :-). Materialscientist (talk) 00:05, 20 November 2011 (UTC)
Addition of water to concentrated sulfuric acid leads to the dispersal of a sulfuric acid aerosol or worse, an explosion
I have never in my life seen sulphuric 'explode'. I just recently diluted about 400 concentrated mls of it, which I'd been heating with 35% peroxide to destroy the contamination before adding the water. Provided it's stirred, covered and the water is added drop wise, no problems. I have even gone as far as dropping lumps of sodium into various concentrations of it (including concentrated) when a few people began questioning what'd happen.
We all need to be very careful of overusing words like toxic and explosion, particularly when they are given no magnitude of risk, circumstances and they are not justified by anything else. Doing so presents the most serious of risks by devaluing the worth of the words. Someone who does not have much experience with these materials will then apply the same handling to something like nitroglycerin. Which most certainly is explosive. — Preceding unsigned comment added by 86.148.218.247 (talk) 21:27, 23 December 2011 (UTC)
Ka1???
In the properties box, the first pKa is listed as -3, but under "reaction with water and dehydrating properties," the Ka1 is listed as 2.4 x 106. Since pKa = -log(Ka), one of those values is definitely not correct. Please look up the actual value in a reliable source and make the two values consistent. — Preceding unsigned comment added by ElZarco (talk • contribs) 13:32, 21 February 2012 (UTC)
Repeated reference to "Animal muscles" ??
I'm curious as to why there are three references to the effect of dissolving animal's muscles in Sulfuric acid. It doesn't strike me as in any way being a genuine method of demonstration - certainly not one I've ever come across. They appeared around the beginning of December 2011, and strike me as being more than a little unsavory. Factual, yes, but there is obviously at least a hint of boy-burns-dog psychopathy going on here.
I don't feel confident doing the edit myself, I'll go practice on some less 'core' pages somewhere, or sandbox for a while. I just wanted to raise it as a subject.
110.175.194.152 (talk) 04:01, 23 February 2012 (UTC)
What is Vitriol? The article mentions it several times, but it's never really defined.
Maybe it's common knowledge, but not to me at least. Wiktionary is not that much help either, IMO.--Cyberman TM (talk) 20:39, 15 June 2012 (UTC)
- The word vitriol derives from the Latin vitreus, 'glass', for the glassy appearance of the salts.
- copper(II) sulfate (blue vitriol, or rarely Roman vitriol)
- zinc sulfate (white vitriol)
- iron(II) sulfate, or ferrous sulfate (green vitriol)
- iron(III) sulfate, or ferric sulfate (vitriol of Mars)
- cobalt(II) sulfate (red vitriol)
- I cut and pasted this from the old article. I hope it helps J8079s (talk) 18:00, 16 June 2012 (UTC)
Wrong European classification
The Sulphuric acid is classified only as corrosive in European classification. Other symbols are wrong. Check your facts! 1YlGC6dsynvm (talk) 16:02, 19 February 2013 (UTC)
Hi,
Can i use 75% of H2S04 of 316 stainless steel (wall thinkness 1.5mm)? — Preceding unsigned comment added by 220.255.77.28 (talk) 05:23, 5 April 2013 (UTC)
Wikipedian pronunciation
Please give this article a pronunciation about the word "sulfuric acid". I just do not know about the correct pronunciation of the word. "sul-fyer-ic..." What IS the pronunciation?
Qwertyxp2000 (talk) 08:18, 22 September 2014 (UTC)
Reaction with carbon
The link suggests that a very impure form of carbon (bituminous coal) reacts with concentrated sulfuric acid. In view of the commonplace demonstration of sulfuric acid disintegrating sugars and starches that leaves behind nearly-pure carbon, it seems suspect that pure carbon as graphite would react with sulfuric acid. The reaction of sulfuric acid with sugars, starches, and cellulose is a decomposition reaction in which extremely-hygroscopic sulfuric acid effectively takes water from the carbohydrate.
If someone can show a source that shows that graphite, coke (no, not the beverage or the drug!) diamond, or buckyballs react with sulfuric acid to oxidize carbon to an oxide and reduce sulfuric acid to sulfur dioxide or sulfur, then the qualification goes away.Pbrower2a (talk) 20:49, 18 March 2015 (UTC)
References
Could we get just a little bit more references? The article is close to FA status, it just needs more inline citations and a consistent referencing system. Titoxd(?!?) 05:19, 13 July 2006 (UTC) http://avogadro.chem.iastate.edu/MSDS/H2SO4.htm is the SDS for this... not what is posted. — Preceding unsigned comment added by 76.6.22.28 (talk) 11:51, 1 September 2015 (UTC)
Various notes with no title
Question: How can I add the Critical Point of Sulphuric acid (925 K @ 6.4 MPa)? —Preceding unsigned comment added by 124.186.72.24 (talk) 20:36, 18 January 2008 (UTC)
- The {{Chembox properties}} template does not currently have a field defined for critical point (temperature or pressure). This is because this level of data usually goes onto a separate data page for the chem in question (see Ethanol (data page)) as an example. Sulfuric acid currently has a data page, but it is sparse. But if somebody wants to improve it, please see other chem data pages (see category:Chemical data pages for a list of them) so that you can follow the model already in place. Karl Hahn (T) (C) 22:08, 18 January 2008 (UTC)
Does anyone think it would be a good idea to include CAS Number in the box?
1 Oleum is not a solution of SO3 in aqueous H2SO4, that would make it just H2SO4. it is SO3 dissolved in pure H2SO4. By destillation (nasty stuff, watch out) the pure SO3 can be obtained. It becomes solid after a while.
2. The body does metabolize sulfur by oxidizing it, but as such the line is a bit misleading, no? The solution in your bodu is buffered of course.
Somebody put me right but I think Oleum is H2SO7? Rjstott Actually it is a solution of SO3 in aqueous H2SO4. --rmhermen See oleum - verified contents.--Forschung 10:02, 21 Dec 2004 (UTC) ==:Oleum - H2S2O7 -x42bn6 Talk 01:16, 3 October 2005 (UTC)
- For what it's worth, oleum is available with higher than 1:1 molar ratio of SO3 in H2SO4. Using the formula for pyrosylfuric acid, H2S2O7 can be a little misleading. Measurements of conductivity of SO3 in H2SO4 show the presence of polymeric species H2SO4·nSO3 where n ranges from 1 to 7 or more. In 100% sulfuric acid (no excess SO3), about 4% of the solution exists as H2S2O7, and of course, the polymers increase with increasing percentage of SO3. I think arguing about the exact "formula" for oleum is both futile and inherently inaccurate. Norm Reitzel (talk) 17:58, 11 January 2009 (UTC)
Question - does the Wikipedia use American or British spelling? If it uses American, then the element S should be sulfur, not sulphur (and similar for sulfuric, sulfurous, etc) -- Marj Tiefert
Simple answer: Yes.
We here at wikipedia have, Yanks, Brits, Australians, Kiwis and even people from some other English speaking countries. So we don't officially endorse any system of spelling -- so long as the word in question is spelt correctly in at least one widely used dialect of English. --maveric149
Thanks ;-)
I suppose it would be too much trouble to change all the page names anyway... -- Marj Tiefert
maveric149 what about Canadians? My actual thing to say is, is there an actual compound name for sulfuric acid? Since H2PO4 is dihydrogen phosphate, should H2SO4 be dihydrogen sulfate? Different ion charge, but still. 96.55.204.152 (talk) 02:49, 7 November 2015 (UTC)
On the other hand, it seems that alumin(i)um has pretty much settled down to the UK spelling (as much as anything on a Wiki is settled), on the grounds that aluminium is the spelling recommended by IUPAC since 1990.
Also since 1990, IUPAC has recommended sulfur as the spelling of this element. The Chemical Abstracts agree, and since 1992, even the Royal Society of Chemistry has had sulfur as its official nomenclature recommendation (although not all RSC publications follow this recommendation). And as of this writing, the element itself, as well as most of its compounds that have their own page, use the 'f' spelling in the Wikipedia.
So, I'm highly inclined to make this page sulfuric acid and the redirect sulphuric. -- user:Shimmin
I second this motion, the IUPAC names should always be used when naming chemicals here.
P.S. The only reason I changed everything to sulphur* was because 1) I hadn't realized that the IUPAC standardized on one 2) Before the change, the article was a horrible mish-mash of sulphur and sulfur. Considering the article was titled "Sulphuric acid", I felt it best to use that. Darrien 16:28, 2004 Mar 18 (UTC)
Actually, I come from the UK, and I was always taught at school that it should be spelt with an F, even though the original "British" English version is with PH.
You American editors are going to hate me for this but with all due respect as a Chemist (im studing my A-Levels) and have found out that Sulphur is the internationally recognised wording therefore can one of you changed this title to be internationally recognised variant.
- You are mistaken. See Wikipedia: Naming conventions (chemistry). Shimmin 15:12, 5 November 2005 (UTC)
- Shimmin is quite right. I got an A in my A-levels (and a Grade 1 S-level) in the UK in 1978, I now hold a Chemistry PhD, and I have worked in chemistry all of my life. IUPAC ruled on this a few years ago (see above). Even the Royal Society of Chemistry spells sulfur with an f now (see here for an example. On chemistry pages we try to follow IUPAC. With A-level chemistry you should be able to make some good contributions to the chemistry (not the spelling!), come & help us! Cheers, Walkerma 18:06, 5 November 2005 (UTC)
Erk, saved changes in wrong window. Thanks for the revert, Tarquin. -- Roger, 16:34 UTC, 1 Sep 2003
- lol. no problem! -- Tarquin 17:36, 1 Sep 2003 (UTC)
This isn't very encyclopedic, but I thought it would be fun to mention somewhere in the vicinity of the article - a mnemonic, of sorts, for young chemists:
- Johnny was a good boy, [or "...chemist"]
- But Johnny is no more,
- For what he thought was H2O,
- Was H2SO4!
:-D IMSoP 23:06, 7 Apr 2004 (UTC)
- Er ... did you read the article? Make sure you go to the bottom. - DavidWBrooks 22:35, 7 Apr 2005 (UTC)
"In 1746 in Birmingham, John Roebuck began producing sulfuric acid ... the standard method of production for almost two centuries."
Yet there's a new process invented in 1831. 85 years is barely close to one century, nevermind two. Is that 1646?--Eric 6 July 2005 18:47 (UTC)
- The contact process was invented in 1831, but was not used on any great scale until the late 19th century, and didn't overtake the old route in terms of volume until the 1920s. Shimmin July 7, 2005 21:11 (UTC)
pKa1 value
The pKa1=-3 given must be wrong. I have come across websites where it is -9 or -10
- http://www.usm.maine.edu/~newton/Chy251_253/Lectures/AcidBase/pK.html
- http://chemweb.unp.ac.za/chemistry/Physical_Data/pKa_values.htm
and these values are more reasonable when considering that for HCl pKa=-7 or -8. H2SO4 is a stronger acid than HCl (pKa1 should be lower than pKa of HCl) since O is more electronegative than Cl, O is also bound to other electronegative atoms (induction effect) and there is a resonance structure stabilizing even more the conjugate base (the anion). —The preceding unsigned comment was added by 84.254.23.155 (talk) 11:27, 22 December 2006 (UTC).
- Disagree. It should be noted from the start that it is very difficult to measure such low pKa values, so some differences between sources are to be expected. Sulfuric acid should have a pKa value between those of phosphoric acid (2.1) and perchloric acid (−7). The most important inductive effect is that of the central atom, which can either attract electrons from the oxygens or supply electrons to the oxygens, depending on its electronegativity. The order of electronegativity is Cl > S > P, hence the chlorine atom in perchloric acid has the greatest tendency to attract electrons from the oxygens. As it attracts electrons, the oxygen atoms become less negative in charge, and so have less attraction for the hydrogen ion. This leads to a greater acidity (compare, for example, the acidities of trichloroacetic acid and acetic acid).
- Note that electronegativity depends on oxidation number: the higher the oxidation state, the more electronegative the atom. I have assumed that the chlorine(VII) centre in perchloric acid is actually more electronegative than the oxygens, but this is not necessary for the argument: all that matters is the order of electronegativities, which shows that perchloric acid should be more acidic than sulfuric acid, and phosphoric acid less so. This PDF file give a large compilation of pKa values with references (and conveniently agrees with −3 for sulfuric acid! ;) Physchim62 (talk) 14:00, 22 December 2006 (UTC)
I agree on what you say for trichloroacetic and acetic acid. The first is stronger than the second because of the inductive effect of the chlorine atoms. That's exactly one reason why I would expect H2SO4 to have lower pKa1 than the pKa of hydrochloric acid. O is more electronegative than Cl, plus S and the other oxygen atoms would pull the electrons even more because of the inductive effect, like the Cl in trichloroacetic acid.
You also have resonance structures stabilizing the anion which should decrease the pKa1 even more.
I saw the pdf you are referring to and the irony is that in one of the links I am providing in the first post they provide the same pdf for values other than the one they show on their table. Nonetheless I have found (apart from the 2 above links) one more http://www.uaf.edu/chem/321Fa06/pkas.html where pKa1 of sulphuric acid is higher than the pKa of HCl. The reference for the pKa in that case is from E. P. Serjeant and B. Dempsey (eds.), Ionization Constants of Organic Acids in Solution, IUPAC Chemical Data Series No. 23, Pergamon Press, Oxford, UK, 1979. which is more recent than ref 28 that is mentioned in the pdf file (Kolthoff, Treatise on Analytical Chemistry, New York, Interscience Encyclopedia, Inc., 1959.). Unfortunately I don't have access to either of the original references but one of them must be wrong.Do you have any means to clarify which is accurate?--84.254.23.155 17:21, 22 December 2006 (UTC)
- That latest link that you quote illustrates another point very nicely: namely that electronegativity is not the only factor in acidity. If you look at the acidities of the hydrogen halides, you will see that HF << HCl < HBr < HI, exactly the opposite of the order of electronegativities. I don't necessarily accept the exact pKa values that this site quotes for the hydrogen halides, but the order of acidity is well known. Why is this? It is a question of the H–X bond strength. Fluorine forms the strongest bond to hydrogen and iodine the weakest because fluorine is the smallest of the halogens and the orbital overlap with hydrogen is greatest. Physchim62 (talk) 00:03, 23 December 2006 (UTC)
The acidity of the hydrogen halides is also explained by the fact that the anion has higher charge density (due to the smaller size) as you go up the group making the conjugate base a bit stronger (counteracting the electronegativity effect). This is a different issue. My point is that either sulphuric acid is stronger than HCl or it is weaker. Only one of these statements can be true and the pKa values provided in wikipedia should reflect the true statement. Since on-line sources are conflicting (I've found sites having consistently pKa for HCl -7 or -8, while for sulphuric acid pKa1=-3 and others pKa1=-9 or -10) I can't say which is correct.
I don't have library access to references so I can't check physical or analytical chemistry books, but there ought to be an official, generally accepted table. I might not be able to find it but someone should be. I understand that there are discrepancies for estimating Kas in that order of magnitude but it is not acceptable to have so huge deviations (from -3 to -10) or not to be able to discriminate which acid is stronger.
Anyway any encyclopedia ought to provide the current knowledge so if there is officially an unresolved conflict it should be mentioned, instead of providing only one side as a fact. If on the other hand the issue is resolved it should make sure it provides not only the correct value but also a reliable and accessible reference, proving that this is the officially accepted value.--84.254.22.22 10:43, 23 December 2006 (UTC)
- Half of the references for sulphuric acid's pKa are -3 (all of them probably originate from Evans), while the other half are -9 or -10. I wonder how Evans arrived at the pKa value of -3. Of course they can't both be right. Mesylate is a much better leaving group than Cl- (just look at your own wikipedia page about leaving groups: https://wiki.riteme.site/wiki/Leaving_group ), so it doesn't make any sense that sulphuric acid should be weaker than HCl.84.210.54.80 (talk) 17:31, 6 December 2015 (UTC)
pKa
Why are there two values for the pKa? -postglock 05:09, 30 April 2006 (UTC)
- Sulfuric acid is a diprotic acid. The lower value is for losing the first H+ to form HSO4−, the higher pKa (less acidic) value is for this ion (bisulfate) losing another H+ to form SO42−. Walkerma 05:25, 30 April 2006 (UTC)
Thanks for that, Walkerma. Do you think this is pretty obvious to most people (I suppose it is in retrospect); it shouldn't require clarification in the box? -postglock
- There is mention of these equilibria under Sulfuric_acid#Reaction_with_water, but no mention of pKa there. I'm heading to bed now (3am local time!) but I'll try and improve the box tomorrow, and maybe look at others like phosphoric acid too. Thanks for the comment! Walkerma 07:05, 30 April 2006 (UTC)
Hey Walkerma, or anyone else, wondering if you had any thoughts on how to do this? I thought about "1st proton" and "2nd proton," but it looked pretty ugly. Any suggestions? or is it even necessary? -postglock 09:25, 26 May 2006 (UTC)
- For polyprotic acids you have pKa1, pKa2, etc, so on the left column you should have these instead of just pKa. However I am not sure whether the value for pKa1 (-3) is correct. I raise this issue below (topic # 14). I have found conflicting sources, some in favour of -3, some in favour of -9 or -10. It is quite important to clarify this, since you need the value in order to compare the strength to other acids. E.g. HCl according to the wikipedia link has pKa=-8. If we accept the original pKa1=-3 then sulphuric acid appears as a weaker acid. If we accept the other (-10) then sulphuric is stronger.--84.254.23.155 20:26, 22 December 2006 (UTC)
I am inclined to go with the -10 pKa1 value. Not only have I never heard of a -3pKa1 value, but -10 simply makes much more sense. Sulfuric acid is stronger than hydrochloric, as evidenced by the higher degree of dissociate it exhibits. -Eric
- It is definitely worth including both pKa values in the sulfuric acid infobox, even though, technically speaking, the second pKa corresponds to bisulfate ion. Given that this second dissociation of sulfuric acid constitutes the definition of a strong acid, it is safe to say that sulfuric acid's second proton dissociates "completely" enough that most people don't really care about the intermediate, essentially non-existent bisulfate ion. Furthermore, the other polyprotic acids (e.g. phosphoric, carbonic, EDTA) include as many pKa values as possible. Regarding the proper value, it is definitely -3.0, as referenced in both the influential Evans and Williams pKa tables. It is definitely possible that other values have been (and will continue to be) given, in various contexts, because the acidity of strong acids cannot generally be measured directly. This is particularly problematic for HCl, HI, etc. (And to the user who claimed that sulfuric acid is stronger than hydrochloric, you are wrong by 5 orders of magnitude) Instead, these values are often measured indirectly, by other thermodynamic (equilibrium) measures, and only calculated after the fact. I do not know whether this is the case for sulfuric acid's first dissociation, but I imagine it is so. This is also the method, in case you were curious, for "measuring" the pKa of totally non-acid acids, such as methane (pKa = 48). -98.228.254.203 (talk) 02:27, 28 April 2011 (UTC)
- If sulphuric acid is weaker than HCl, how come that mesylates are much better leaving groups than Cl-? ( https://wiki.riteme.site/wiki/Leaving_group )84.210.54.80 (talk) 17:37, 6 December 2015 (UTC)
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Properties of acid vs water
I removed this
Consider of the physical properties of acid and water:
Physical property | H2SO4 | Water | Units |
---|---|---|---|
Density | 1.84 | 1.0 | kg/L |
Volumetric heat capacity | 2.54 | 4.18 | kJ/L |
Boiling point | 337 | 100 | °C |
--Smokefoot (talk) 15:03, 19 November 2017 (UTC)
Contradiction
The description of the "contact process" claims that it is not practical to combine SO3 with water to make sulfuric acid. The next process says that SO3 is combined with water to produce sulfuric acid. So, which is it ?Lathamibird (talk) 11:38, 12 January 2018 (UTC)
use as a weapon
Please add a paragraph describing its use as a weapon in reality (not fiction), for example http://news.bbc.co.uk/2/hi/africa/6498641.stm --Sonjaaa 07:41, 29 March 2007 (UTC)
Maybe using it to pour on someone.These things always happen in China and India.Many people use sulfuric acid to hurt someone they don't like. 小小小硝酸 (talk) 18:02, 13 October 2018 (UTC)
How to concentrate
I’m wondering if a weak solution of 35%, like batteries acid, can increase his concentration by boiling to remove water??? — Preceding unsigned comment added by 186.37.203.64 (talk) 23:36, 7 July 2012 (UTC)
- No. From production industry experience you need to dehydrate, commonly using sulphuric acid with higher concentrations. Boiling will remove the sulphuric acid along with the water, due to the complete solution formed. 105.232.92.52 (talk) 06:53, 28 May 2020 (UTC)
Clear & Colorless = Not entirely accurate?
The article says H2SO4 is a "clear, colorless, odorless liquid", however many MSDS, including the NIOSH pocket reference linked to at the bottom of the article state it can range from clear to a dark-brown, oily liquid, with the pure form being a solid at 51 C. I'm not sure if if color change is related to concentration, so I'll leave it to someone more familiar with the details to make the change, but I think it should be added, if for no other reason than to keep that one person from reading the article and accidentally deciding a substance can't be H2SO4 because of its dark color. It should be noted that almost every concentrated sulfuric acid drain cleaner in the US is brown to dark brown (although some are artificially colored black, and don't count). Saying H2SO4 is clear & colorless just isn't 100% accurate. 97.82.247.200 10:16, 21 August 2007 (UTC)
This article is about the pure sulfuric acid. Small amounts of dirt get oxidized to black polimeric stuf and the sulfuric acid is brown. The sentence that comercial available sulfuric acid can range in colour from colorless to black should be mentioned.--Stone 13:50, 21 August 2007 (UTC)
- So, 98% sulfuric acid that has no impurities will be completely clear -not just lower concentrations?
- Out of curiosity, what procedure would a lab use remove those impurities? My first thought is filtration, but I can't think of a filtering medium that sulfuric acid wouldn't destroy (or at least affect). Would it need to be distilled to clarify it? 97.82.247.200 20:37, 21 August 2007 (UTC)
- Pure, unadulterated sulfuric acid is in fact, water white at all concentrations. However, it is a viciously powerful dehydrating agent and just about any organic contamination is quickly reduced to collodial carbon, which makes a lot of "commercial" grade acid light amber to downright murky. It turns out, sulfuric acid is easy to clean up - one need only heat it to the boiling point for a few minutes. Does anyone need to be reminded that sulfuric acid at its boiling point is an exceptionally dangerous substance? The acid is an oxidizing agent at high temperature and will oxidize carbon contaminents to CO2, H2O, and SO2, which escape as gases. In normal use, the suspended impurities are quite inert and do not interfere with usage. It is only in fussy analytical work that one worries about trace contaminents, and for that, there are grades of acid available at an, ahem, slight premium, that fill the bill. Norm Reitzel (talk) 17:39, 11 January 2009 (UTC)
- I have seen the colour vary from clear to milky white when the production acid was on spec, but colour can change easily when contaminated. I have seen pick acid with higher lead, iron and arsenic contamination. I'm also researching the brown colour. Just for interest. I work on a metallurgical acid plant, treating the SO2 off-gas from a copper smelter. 105.232.92.52 (talk) 07:08, 28 May 2020 (UTC)
- Another way I have seen to clean the acid is oxidizing it with hydrogen peroxide (H2O2) (http://www.sulphuric-acid.com/TechManual/Properties/properties_acid_colour.htm). Don't know how applicable it is to lab work, though. 105.232.92.52 (talk) 07:08, 28 May 2020 (UTC)
- Glass fibre filters are impervious to sulfuric acid, they generally make a good filter medium for strong mineral acids. 193.113.135.112 (talk) 11:46, 12 April 2010 (UTC)
- Filtering will not remove dissolved or bound contaminants. If you can see a deposit on the bottom of the sample, go ahead and filter it. But colour is usually caused by contaminants that don't settle. 105.232.92.52 (talk) 07:08, 28 May 2020 (UTC)
- Glass fibre filters are impervious to sulfuric acid, they generally make a good filter medium for strong mineral acids. 193.113.135.112 (talk) 11:46, 12 April 2010 (UTC)
Oxidising agent
In the article it is mentioned that conc. H2SO4 is a strong oxidising agent. But from what I know H2SO4 is just a moderately strong oxidising agent. Am I wrong? I am considering changing the sentence 'Concentrated sulfuric acid is a strong oxidising agent' to 'Hot concentrated sulfuric acid is a strong oxidising agent.' Exe csrss (talk) 09:55, 21 June 2020 (UTC)
- Good point. Few chemists would describe it as a strong oxidant. --Smokefoot (talk) 14:09, 25 June 2020 (UTC)
Sulphuric acid's formula
The chemical formula of sulphuric acid is commonly written as H2SO4, but I've seen it also written as SO4H2 or H2O4S etc. Which would be more correct for sulphuric acid? — Preceding unsigned comment added by LeticiaLL (talk • contribs) 21:44, 1 October 2020 (UTC)
- All are correct, but each follows a different standard or conveys various additional information besides simply "the atoms involved". For example, H2O4S is Hill order; if everyone follows the same standard, it's easy to sort, index, and look up any given chemical. But H2SO4 indicates that it contains a sulfate, which is fundamental to its structure and reactivity. DMacks (talk) 22:46, 4 October 2020 (UTC)
History - 13th century origin
Dear 103.115.184.249,
As I explained in my edit summary, prominent and reliable sources such as Multhauf 1966 and Karpenko & Norris 2002 say that sulfuric acid appears for the first time in the 13th century. The claims of Modanlou and Schlosser about its discovery by Abu Bakr al-Razi that were present in the old version of this article are not based on any discussion of the primary sources or of the scholarly literature on the subject. It often happens that there are such sources claiming things without actually discussing these things on the basis of research, and such sources should either be given very little weight or disregarded completely. That's why I removed the content based on Modanlou and Schlosser. If you believe this is wrong, please explain your concerns here.
Thank you for considering this, Apaugasma (talk|contribs) 20:29, 17 March 2021 (UTC)
- some source say that but others say otherwise, why should we only nclude your sources ? are you some wikipedia administrator or something ? you despise ip editors and revert all my contributions to push your pov, that's not fair to be agressive towards newbies. — Preceding unsigned comment added by 103.115.184.249 (talk) 21:33, 17 March 2021 (UTC)
- When sources contradict each other, it is important to take a closer look at the nature of the various sources, and consider how they weigh up to each other. One of the core goals of Wikipedia is to represent the various POVs taken by scholarly sources according to their prominence in the field. This is explained at the policy page WP:NPOV (see especially the section on due weight). Scholars who are just writing something without citing any source for it, like Modanlou and Schlosser, carry very little weight.
- Try to think of it this way: when a prominent historian of chemistry is planning to write a piece on the history of sulfuric acid, whom are they going to cite? Are they going to cite sources like Multhauf and Karpenko & Norris, who have extensively investigated the medieval documents and have compared their own interpretations of these documents with how other scholars have interpreted them, or are they going to cite sources like Modanlou and Schlosser, of whom it is entirely unclear on what they have based their views, and who have never studied the medieval sources for themselves? The goal of Wikipedia is in the first place to be citing the same sources as the prominent historian of chemistry would cite. Because it is an encyclopedia, in some cases there is also some room to cite less authoritative views, just for the sake of completeness. This we would do, e.g., if we had a well-developed article called History of sulfuric acid. But even then, we would probably only be citing sources which, unlike Modanlou and Schlosser, themselves provide sources for the views they take. That is why I believe that it is better to leave out Modanlou and Schlosser from this article.
- What do you think? Apaugasma (talk|contribs) 23:55, 17 March 2021 (UTC)
Chemical properties & safety precaution in the lead
I found the original lead a bit misleading & clumsy to read:
- Sulfuric acid in "pure form" does not exist naturally (as mentioned in the article) for its dehydrating property;
- Not just "pure" sulfuric acid is corrosive towards other materials, but whenever at high concentrations;
- "Solutions" implies the acid's aqueous state, thus redundancy of mentioning "in water".
- Descriptions of the same property are here and there. — Preceding unsigned comment added by RoyalRover (talk • contribs) 08:17, 22 August 2021 (UTC)
"H2S04" listed at Redirects for discussion
A discussion is taking place to address the redirect H2S04. The discussion will occur at Wikipedia:Redirects for discussion/Log/2021 November 19#H2S04 until a consensus is reached, and readers of this page are welcome to contribute to the discussion. ~~~~
User:1234qwer1234qwer4 (talk) 09:45, 19 November 2021 (UTC)