Talk:Molecular symmetry
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Text and/or other creative content from this version of Molecular point group was copied or moved into Molecular symmetry with this edit on 6 June 2016. The former page's history now serves to provide attribution for that content in the latter page, and it must not be deleted as long as the latter page exists. |
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Some work
editI have been making some stylistic rewrites of this article for readability/tone and consistency, and will probably continue to do so. Leave a note if something I do looks or reads silly. Baccyak4H (Yak!) 16:09, 18 October 2007 (UTC)
- Overall the article is much improved after your edits. I have made a few (4) more revisions. Dirac66 01:55, 19 October 2007 (UTC)
- Thanks for the feedback and the continued improvement. "Matrixes"... :-) Baccyak4H (Yak!) 02:19, 19 October 2007 (UTC)
- mmmm matrices... even in my native language it is matrices that way so no excuses there. V8rik 21:17, 19 October 2007 (UTC)
Thionyl chloride
editIn the symmetry groups section I think Thionyl chloride is not planar, please edit — Preceding unsigned comment added by 94.7.221.165 (talk) 12:15, 29 September 2011 (UTC)
- Thank you for pointing this out. The word "planar" in the description is misleading as it incorrectly suggests that the molecule is planar. The correct geometry is shown at the article Thionyl chloride. The symmetry group is in fact Cs as the article says, but the mirror plane is the plane which bisects the Cl-S-Cl angle, with one Cl on each side of the plane. I will change the verbal description to read "Mirror plane, no other symmetry". Dirac66 (talk) 12:55, 29 September 2011 (UTC)
Diagrams - further explanation needed
edit- @Project Osprey: The diagrams you have added are well drawn and seem helpful. I expanded the description of the first diagram, and added a link to chirality for the second. What I think is also needed on the second diagram is an explanation of the subscripts R and S on the X and Y groups, please. Are they somehow related to R- and S- enantiomers?? Dirac66 (talk) 03:45, 10 February 2016 (UTC)
- I'll be honest and say that I adapted the second diagram from one on the Japanese Wikipedia. My interpretation was that the R- and S- tags do refer to the chirality of those X and Y groups; so that the top middle and right compounds are meso compounds. Would you agree with that? --Project Osprey (talk) 09:31, 10 February 2016 (UTC)
- The top middle molecule is meso, but I am not certain about the top right since it has no mirror plane. However in this article, the Symmetry elements section deals with much simpler molecules – the examples given are H2O, NH3, XeF4, SiF4 and C2H6. So I think that examples with chiral substituents may be mystifying to many readers who can follow the discussion on the simpler molecules.
- Instead I suggest that we move this diagram down to a new section near the end of the article, perhaps entitled Symmetry and chirality or Symmetry with chiral substituents. This section could include brief definitions and links for terms such as chiral(ity), enantiomer and meso.
- I also glanced at the Japanese article with these diagrams which you mention. Although I can read no Japanese, the figures in that article suggest it is about stereochemistry of organic molecules, and not about molecular symmetry as such. Dirac66 (talk) 16:54, 10 February 2016 (UTC)
- That seems reasonable, advanced definitions of chirality are based around molecular symmetry, so it could probably do with its own section. I'm pretty sure that inversion centers count, surely mesotartaric acid can have either a mirror plane or an inversion center depending on its conformation. --Project Osprey (talk) 21:44, 10 February 2016 (UTC)
- I'll be honest and say that I adapted the second diagram from one on the Japanese Wikipedia. My interpretation was that the R- and S- tags do refer to the chirality of those X and Y groups; so that the top middle and right compounds are meso compounds. Would you agree with that? --Project Osprey (talk) 09:31, 10 February 2016 (UTC)
Mistake in the Point Group Chart
editHello, It should be Cn, not C2, in the Point Group Chart at "Two or more C2, n>2?". Also the indices seem inconsistent. Greetings, --Hexapol (talk) 19:41, 4 April 2018 (UTC)
- 1. Yes, I agree that it should be "Two or more Cn, n>2?", since the groups Td, Ih and Oh all have several axes which are C3 or C4 or C5.
- 2. Could you be more specific about why the indices are inconsistent? Drawing a new image is a much bigger job than modifying text, so it would be best to specify all the errors before someone tries to draw a new image.
- 3. For now I will try to enlarge the image so that it is legible without clicking on it. Dirac66 (talk) 21:06, 4 April 2018 (UTC)
- For example it should be "D∞h" instead of D∞h. The same applies to the point groups C∞v, Oh, Td, Cnh, Cnv and S2n. Dvd should to be changed to Dnd. The point group Dn is missing as it is a copy-paste-error. Different colors or shapes for the point groups and questions could help to make the chart more clear. --Hexapol (talk) 15:17, 7 April 2018 (UTC)
- Yes, I agree with your list of specific corrections: the symbols after the first letter of the group names should be subscripts, Dvd should be Dnd, and the group Dn should be added. As for different colors or shapes, we would have to see a specific version to decide if it is an improvement.
- So if you have the appropriate drawing software, I encourage you to create a new image. If not, perhaps someone else will see this list of suggestions and draw the image. I unfortunately do not have the required software, so I can only make verbal corrections. Dirac66 (talk) 22:43, 7 April 2018 (UTC)
- For example it should be "D∞h" instead of D∞h. The same applies to the point groups C∞v, Oh, Td, Cnh, Cnv and S2n. Dvd should to be changed to Dnd. The point group Dn is missing as it is a copy-paste-error. Different colors or shapes for the point groups and questions could help to make the chart more clear. --Hexapol (talk) 15:17, 7 April 2018 (UTC)
- Two more specific corrections: (1) Every circle with a yes and no coming from it is a question and should have a question mark. (2) There is a question which now leads to Dvd for Yes and nσv for No. The answers should be Dnd for Yes (as already noted), and Dn for No. So the missing circle for Dn is actually mislabelled as nσv. Dirac66 (talk) 02:19, 8 April 2018 (UTC)
ChemDraw
editFor the big table: in my view, ChemDraw images are superior to the images produced by molecular modeling programs. ChemDraw images are just easier to visualize. I sympathize with our wish to impress readers with beautifully colored images; they impress me too. But maybe we should consider one prosaic ChemDraw image per pt group. --Smokefoot (talk) 02:12, 30 March 2021 (UTC)
- I agree it is cluttered at present. If by ChemDraw images you mean skeletal formulae, I think they would be a good addition to the table. However I don't think they should replace all the 3D images. The benefit of 3D over skeletal for both novices and experienced chemists is 3D is less abstract. It doesn't require as much mental processing or prior knowledge for a reader to understand what three-dimensional shape is being described, and that is clearly important in this article. --Ben (talk) 18:04, 30 March 2021 (UTC)
New example does not have S4 symmetry
editThe latest molecule added may be a nice example of a ChemDraw image, but it is not an example of S4 symmetry because there are only two equivalent fluorine atoms and not four. For S4 symmetry we need another F on each benzene ring in the para position relative to the first fluorine.
Also I don't know if either the difluoro or the tetrafluoro version actually exists. The other molecules in the table have links to their Wikipedia articles where the reader can find evidence that the molecules exist. Dirac66 (talk) 15:30, 30 March 2021 (UTC)
|thumb|S4 symmetry study]]
- The tetrafluoride would be Td, of course.
--Smokefoot (talk) 19:37, 30 March 2021 (UTC)
- The diagram of the difluoro molecule is clearer, but I still don't think the molecule has S4 symmetry. In your new diagram the location of the C4 axis is clear but the location of the σ plane is not. It should be σh for a horizontal plane, meaning perpendicular to the C4 axis. So you have placed the red F in the correct final position, but the black F should finish below the left-hand benzene ring, i.e. para to where you have actually placed it. But in this location there was no F there initially, so S4 is not a symmetry operation.
- As for my mention of a tetrafluoro molecule, I was referring not to the tetrafluoride CF4 which is Td, but rather to the (C6H2F2O2)2B isomer obtained from your difluoro by replacing the two H para to the two F's with two more F's. That would have S4 symmetry, although I have no idea whether the molecule actually exists.
- In any case if the correct symmetry of a molecule is not obvious, Wikipedia policy requires that a source be provided. I think the problem is that this molecule is too obscure and complicated, so should not really be in the article with no source for the symmetry. Dirac66 (talk) 20:54, 30 March 2021 (UTC)
- Agreed, S4 pt group is a tricky one, i.e., difficult to see (that's the reason I was editing on it: we encountered an example recently). S4 is not as bad as Th or T (no molecular examples given), but tricky.
- Now about the location of the plane: All symmetry elements (planes, axes, inv centers) must contain unique atoms. So one knows that the plane goes through boron. Next, we know that S4 pt group is defined by the S4 operation (aside from trivial identity operation), and the S4 operation is defined by C4 and a orrthoganal plane of symmetry (usually called σh). So the σh is orthogonal to the C4.
- (C6H2F2O2)2B- would be D2d, I think. Three orthogonal C2's--Smokefoot (talk) 21:49, 30 March 2021 (UTC)
- In any case if the correct symmetry of a molecule is not obvious, Wikipedia policy requires that a source be provided. I think the problem is that this molecule is too obscure and complicated, so should not really be in the article with no source for the symmetry. Dirac66 (talk) 20:54, 30 March 2021 (UTC)
- An S4 axis implies that all off-axis atoms are in sets of 4, not 2, so the difluoro molecule cannot have an S4 axis. Yes, an S4 operation brings fluorine 1 to the position of fluorine 2, but repeating the operation brings fluorine 2 to a nonexistent fluorine 3 so it is not a true symmetry operation. Therefore the difluoro molecule does not have symmetry S4 and I will mark it as Citation needed.
- For my tetrafluoro suggestion I agree that the symmetry would be D2d. It does have an S4 axis but its complete group is D2d as you say. Therefore I withdraw the suggestion that it be used as an example for the S4 group.
- As for tetraphenylborate, I find it difficult to visualize the drawing in 3 dimensions and I suspect it may be D2d also. I think it needs a citation too. Dirac66 (talk) 16:18, 31 March 2021 (UTC)
- @Benjah-bmm27: Ben can you please look at the species that we are debating. S4 pt group or no. And can you please comment on this assertion "An S4 axis implies that all off-axis atoms are in sets of 4, not 2..."
- As for tetraphenylborate, I find it difficult to visualize the drawing in 3 dimensions and I suspect it may be D2d also. I think it needs a citation too. Dirac66 (talk) 16:18, 31 March 2021 (UTC)
- Hello, interesting question. My understanding is that an S4 improper rotation requires a C4 rotation and a reflection in the plane perpendicular to the C4 axis. I made a model of your example, Smokefoot, and got a different outcome from the final σ operation, with the non-red fluorine pointing down (not up as in the diagram). I think the molecular after the reflection is non-superimposable on the starting structure (and the molecule is chiral).
- Greenwood & Earnshaw give cyclo-Cl4B4N4R4 as a molecule in the S4 point group. Housecroft gives a tetrafluorospiropentane as an example. I found a few more from a quick search using Google Scholar, including tetracyclopropylmethane (QEMJIB from Kozhushkov et al., Angew. Chem. Int. Ed. (2001) 40, 180-183). There's also an S4 water octamer, coordination nanotubes, ThCp4 and UCp4, an In4L4 complex and a spirobis(silastannaindacene). --Ben (talk) 19:38, 31 March 2021 (UTC)
- OK, basically what Dirac was saying. More pondering tonight! Thanks to you both. --Smokefoot (talk) 19:46, 31 March 2021 (UTC)
- Thinking about it, looks like your borate example is C2, like 1,3-dichloroallene. --Ben (talk) 20:53, 31 March 2021 (UTC)
- Thank you both. I think the above diagram of the tetrafluorospiropentane labelled "Housecroft example" is very clear and certainly S4, so I suggest we use that as the best example of the S4 group. It would be good to add the complete bibliographic information; I can't find it in my 2nd edition (2005) of Housecroft and Sharpe so perhaps it is in a later edition.
- And I'm still uncertain if the tetraphenylborate is C2 or C2v because from the diagram I can't make out the exact orientation of the two phenyl on the right side of the diagram. Dirac66 (talk) 00:38, 1 April 2021 (UTC)
- Agreed that Housecroft is very clear and better than wrong (always a good idea). It also illustrates that molecular modeling can produce useful images for visualization. The ones that I object to are the spacefilling blobs. I dont like BPh4-. Diff to visualize and its a particular rotamer. --Smokefoot (talk) 02:05, 1 April 2021 (UTC)
- The tetrafluorospiropentane example is from Housecroft, C. E.; Sharpe, A. G. (2008). Inorganic Chemistry (3rd ed.). Prentice Hall. pp. 111–112. ISBN 978-0-13-175553-6. --Ben (talk) 09:05, 1 April 2021 (UTC)
Conformation
editIsn't it true that point groups are said to be applicable to molecules even if the molecule is not necessarily always in a conformation that has that symmetry, from a strict geometrical point of view? For example, in the article we say that meso-tartaric acid has inversion symmetry. But that's only strictly true if it's in a particular conformation. If it gets twisted this way or that, then it no longer has inversion symmetry, but we can still apply the term to the molecule. I believe the symmetry "up to" conformation is useful in calculating the entropy. Can someone confirm what I'm saying? Can we put something in the article about this? Eric Kvaalen (talk) 19:14, 23 October 2021 (UTC)
- The usual point group assignment assumes that the molecule is at its equilibrium geometry corresponding to a potential energy minimum. Asymmetric vibrations lower the symmetry, not only for meso-tartaric acid but even for molecules as simple as water which has an asymmetric stretch, and CO2 which has a bending vibration as well as an asymmetric stretch. The only molecules with no asymmetric vibrations are diatomic molecules. The article considers the question in the final section on Molecular nonrigidity. Dirac66 (talk) 21:06, 23 October 2021 (UTC)
- @Dirac66: Yes, I know all that, and I did see that final section, but I found it a bit arcane. My question is, shouldn't we say near the beginning that we often or usually assign point groups to molecules based on the way moieties are attached to them, not on whether they are geometrically exactly in a conformation that has the symmetry in question. For instance we say that meso-tartaric acid has inversion symmetry, even if it doesn't always, from a geometrical point of view. Here's another example: Let's say there's a compound tetra(chloro-fluoro-methyl)methane. If the chloro-fluoro-methyl groups all have the same chirality, then I think we would say that the molecule has (chiral) tetrahedral symmetry (denoted "T"), even if the side groups at any point in time may not be rotated exactly the same way, and consequently the symmetry elements of T are not in force. (I realize that quantum mechanically we can't really say that the molecule has a particular conformation at a given point in time -- there's a multidimensional wave function obeying the Heisenberg uncertainty principle.) Eric Kvaalen (talk) 05:04, 24 October 2021 (UTC)
Double group?
editThe last section on Molecular rotation and molecular nonrigidity refers to a "double group". I cannot find the term "double group" defined anywhere on Wikipedia. Searching Wikipedia for an article "double group" leads to a redirect to "space group", but that article does not contain the words "double group". Also it refers to crystal symmetry including translation in space, rather than molecular symmetry about a point. Could someone add (here or elsewhere with a link from here) an explanation of what is meant by a "double group"? Could it be related to a direct product of groups? Dirac66 (talk) 17:57, 5 March 2022 (UTC)
- There is a citation (Ref 25) to an article in the Journal of Chemical Physics in that section; the abstract mentioned that a "double group theory" due to Hougen is used to separate "torsional and a-rotational motions." I agree that it does bear some explanation if it's to be mentioned here, currently it's unclear. I can't access the original article to read further. KeeYou Flib (talk) 20:02, 5 March 2022 (UTC)
- Actually I just found this; might shed some light. https://www.google.com/books/edition/Chemical_Group_Theory/f8b7ck4NQ8YC?hl=en&gbpv=1&dq=Hougen%27s+double+group+theory&pg=PA158&printsec=frontcover KeeYou Flib (talk) 20:03, 5 March 2022 (UTC)
- I see the "double group" also in the context of molecules having half-odd-integer electron spin (usually ions or radicals) such that that rotation by 2π results in negating the wavefunction. The group is twice as big and the character table is extended and has a new operator R for rotation by 2π. I don't understand it well and this book may help: section 7.6 of http://www.matfys.lth.se/education/FYS256/aryasetiawan.pdf. Also I see that Point group#List_of_point_groups speaks of doubling but has little explanation or references; I've want to understand that, and would like to know how these "double groups" are related. –MadeOfAtoms (talk) 01:19, 6 March 2022 (UTC)
Bunkerspam
editPlease check this article for Bunkerspam ([1]), there is a potential WP:COI, as P. R. Bunker (or socks/colleagues etc.) edited this article many times; maybe it needs a significant rewrite. A1E6 (talk) 20:47, 24 August 2024 (UTC)
- It looks to me like only one small section of the article (Molecular rotation and molecular nonrigidity) is potentially affected. Although some additional citations need to be added, the ones that are currently there seem okay to me. Possibly some POV edits are needed but the facts all look correct to me. Qflib (talk) 19:52, 15 September 2024 (UTC)
- Watson and Higgins are Bunker's associates. 6+ citations are not OK, given the editing history of the article. I suggest completely rewriting the "Molecular rotation and molecular nonrigidity" section, for example to an old version, making no mention of Bunker or associates. Remember: there are socks/anons dedicated to promoting Bunker, see e.g. the editing history of this one [2]. A1E6 (talk) 22:59, 15 September 2024 (UTC)
- That looks less like a sock and more like someone making an edit without remembering to log in, at least to my eyes. I do agree about the excess of citations, but I'm not sure that I agree about completely rewriting the section. To my eye it looks like it needs some edits but that's as far as I personally would want to go. Qflib (talk) 00:43, 16 September 2024 (UTC)
- Whether Bunker's statements are factually correct is a topic for another day; right now we should tackle COI. A1E6 (talk) 00:36, 16 September 2024 (UTC)
- I remember I had to revert lots of Bunker's "contributions" to physics; the content turned out to be WP:FRINGE and also false; I advise you to check Bunker's work against other authors. If some "information" is available only in Bunker and not elsewhere, it can be problematic – and judging by the looks of the last section of the article, it definitely needs some editing. A1E6 (talk) 06:08, 16 September 2024 (UTC)
- As I keep saying, I agree with the need to make some edits (which I will have a start at after I finish this note), and I acknowledge the problem. He has emphasized his own contributions way too much, cited himself way too often, promoted his own work. But on the other hand, Bunker's work has been so widely cited (an h-index of 55 is impressive in this particular fieldhttps://scholar.google.com/citations?user=YjArt68AAAAJ&hl=en). that characterizing his work as "fringe" seems a bit much. I work in this field (but have never met him). He is a widely recognized expert in molecular spectroscopy. Personally I do not want to waste time throwing stones. We should Wikipedia:Assume good faith and just fix the problems. Qflib (talk) 20:30, 16 September 2024 (UTC)
- I didn't mean "fringe in chemistry"; I meant some of his contributions to physics articles here on Wikipedia were fringe. And even though this is chemistry, I thought one should still be careful. But it's a good thing if he has a high h-index. And thank you for your recent edits. I'm glad that at least someone cares. :) A1E6 (talk) 21:25, 16 September 2024 (UTC)
- I have added a useful reference about symmetry of nonrigid molecules by M Schnell with whom I have no COI. I hope it will not be removed. It is surely more important to add information to a wiki page rather than to remove it. Bunkerpr (talk) 16:24, 2 October 2024 (UTC)
- Well, some people are asking for more removals (the molecular non-rigidity in particular). But I have no reason to remove the Schnell reference. A1E6 (talk) 00:24, 5 October 2024 (UTC)
- I have added a useful reference about symmetry of nonrigid molecules by M Schnell with whom I have no COI. I hope it will not be removed. It is surely more important to add information to a wiki page rather than to remove it. Bunkerpr (talk) 16:24, 2 October 2024 (UTC)
- This is supposed to be an introduction to the applications of molecular symmetry and the section on molecular rotation is a mess. It needs a straightforward description of the quantum states of rigid molecules and probably not much else. I think the non-rigid stuff needs to be hived of to a separate page or simply dropped. Molsym42 (talk) 21:17, 2 October 2024 (UTC)
- I agree with you that this wiki page is not terribly well written. I had thought of trying a complete rewrite
- but then I though that people would be better off reading one of my books if they have a reference to it somewhere in the page. Cheers Phil Bunkerpr (talk) 18:04, 3 October 2024 (UTC)
- Please don't do this - it just means that somebody will have to reverse it. I am not sure what you mean by "this wiki page" but the whole article (Molecular Symmetry) doesn't need rewriting. Some of it is quite good and cooperative changes could make it even better. The real disaster is the rotation section that has become a battleground between you and other contributors. Apart from the obvious self promotion problem i don't think your book would be much help for a wiki page reader when there are more readable accounts available. A contributor above makes the point that it is the rotation section that is the problem and that needs some attention. Molsym42 (talk) 08:43, 7 October 2024 (UTC)
- What you just wrote contradicts the purpose of the whole Wikipedia project. Wikipedia is not an advertisement vehicle for books; it's rather "the opposite".
- When someone reads something off from Wikipedia, they should have little to no motivation to buy the book that was used for the information. In other words, the whole crux of the relevant material in that book should be present on Wikipedia so that there's little to no need to buy the book, unless you want to dig into details.
- You can't write something like "Everything important about X can be found in the book Y." Needless to say, it's even worse if you are the author of the book; it's also even worse if it is the only source with that information.
- See WP:NOTADVERT, WP:FRINGE, WP:UNDUE and WP:VNOT. A1E6 (talk) 16:20, 7 October 2024 (UTC)
- Maybe you should look at Philip Bunker Bunkerpr (talk) 13:04, 13 October 2024 (UTC)
- I do know your Wikipedia article very well, but Wikipedia policies still apply to you. Maybe you misunderstood my previous message – in "it's even worse if you are the author of the book", by "you" I didn't mean P. R. Bunker; I meant "generic you", meaning it applies to people in general. A1E6 (talk) 01:42, 14 October 2024 (UTC)
- Aha! I see that you are in Czechia. If you are in Prague, give my greetings to Vladimir Spirko who would be amused to hear about the hard times we are giving each other! I stll feel that it is a great pity that my pdf file that explains the connection between permutation-inversion symmetry and point group symmetry was deleted. Maybe you could put it back at the end of the 'External Links'. https://chemphys.ca/pbunker/PointGroupspdffile.html. Bunkerpr (talk) 14:45, 14 October 2024 (UTC)
- Your references cannot be there only because you're suggesting it (it needs a different reason). Someone who has a "clean" editing history (i.e. not your associate, not a new IP dedicated to this edit etc.) would need to add it and explain why it improves the article. If the motivation of such an edit is unclear or if someone is dissatisfied with the explanation, they can remove it. Then we can discuss on the Talk page again.
- If someone adds something from the PDF you mention, they should definitely "dive deeper" while avoiding copyright infringements. The readers should have a clear understanding of what is it about even when not clicking the PDF.
- Also there has been a critique of your content by an editor, saying that "more readable accounts are available". While I'm in no position to judge this, it shows that, even if your content is verifiable and you think it improves the article, it might still be replaced by something.
- Don't get too attached to your original stuff when editing Wikipedia; instead, try to improve Wikipedia by adding content from people who you have no COI with. You know, one day, someone who has no COI with you can add yours :) A1E6 (talk) 18:48, 14 October 2024 (UTC)
- I would really like you to look at https://chemphys.ca/pbunker/PointGroupspdffile.html
- Go all through it and see if you learn anything. Maybe you will find it a good idea to put it back in the article. I doubt if there is a better discussion of this subject anywhere. Bunkerpr (talk) 14:57, 19 October 2024 (UTC)
- Whatever its deficiencies, the Schoenflies system has to be used throughout this wiki article. By about page 8 your pdf introduces the LH roto-inversion necessary for non-rigid molecules. If there is no better discussion of molecular symmetry than this then the poor reader is doomed. Molsym42 (talk) 09:28, 22 October 2024 (UTC)
- A good place to learn is Chapter 4 (particularly Section 4.5) of https://www.theochem.ru.nl/files/local/molecular-symmetry-and-spectroscopy-bunker-jensen.pdf But if you cannot stand to refer to anything written by me or my colleagues then use https://physics.uwo.ca/~mhoude2/courses/astro9701/Hamiltonian_symmetry.pdfBunkerpr (talk) 15:51, 22 October 2024 (UTC)
- Sorry - meant permutation inversion. Molsym42 (talk) 10:15, 23 October 2024 (UTC)
- The introduction of the paper J. Mol. Spectrosc. 228, 640-644 (2004) explains very well the history of the development of the molecular symmetry group as expressed using nuclear permutations and permutation-inversions. PLEASE read it. I would like the persons called A1E6 and QFIB to read this introduction too. Perhaps a condensed form of this introduction should be in the introduction of this wiki article. Bunkerpr (talk) 13:26, 23 October 2024 (UTC)
- Sorry - meant permutation inversion. Molsym42 (talk) 10:15, 23 October 2024 (UTC)
- A good place to learn is Chapter 4 (particularly Section 4.5) of https://www.theochem.ru.nl/files/local/molecular-symmetry-and-spectroscopy-bunker-jensen.pdf But if you cannot stand to refer to anything written by me or my colleagues then use https://physics.uwo.ca/~mhoude2/courses/astro9701/Hamiltonian_symmetry.pdfBunkerpr (talk) 15:51, 22 October 2024 (UTC)
- Whatever its deficiencies, the Schoenflies system has to be used throughout this wiki article. By about page 8 your pdf introduces the LH roto-inversion necessary for non-rigid molecules. If there is no better discussion of molecular symmetry than this then the poor reader is doomed. Molsym42 (talk) 09:28, 22 October 2024 (UTC)
- Aha! I see that you are in Czechia. If you are in Prague, give my greetings to Vladimir Spirko who would be amused to hear about the hard times we are giving each other! I stll feel that it is a great pity that my pdf file that explains the connection between permutation-inversion symmetry and point group symmetry was deleted. Maybe you could put it back at the end of the 'External Links'. https://chemphys.ca/pbunker/PointGroupspdffile.html. Bunkerpr (talk) 14:45, 14 October 2024 (UTC)
- I do know your Wikipedia article very well, but Wikipedia policies still apply to you. Maybe you misunderstood my previous message – in "it's even worse if you are the author of the book", by "you" I didn't mean P. R. Bunker; I meant "generic you", meaning it applies to people in general. A1E6 (talk) 01:42, 14 October 2024 (UTC)
- Maybe you should look at Philip Bunker Bunkerpr (talk) 13:04, 13 October 2024 (UTC)
- I didn't mean "fringe in chemistry"; I meant some of his contributions to physics articles here on Wikipedia were fringe. And even though this is chemistry, I thought one should still be careful. But it's a good thing if he has a high h-index. And thank you for your recent edits. I'm glad that at least someone cares. :) A1E6 (talk) 21:25, 16 September 2024 (UTC)
- As I keep saying, I agree with the need to make some edits (which I will have a start at after I finish this note), and I acknowledge the problem. He has emphasized his own contributions way too much, cited himself way too often, promoted his own work. But on the other hand, Bunker's work has been so widely cited (an h-index of 55 is impressive in this particular fieldhttps://scholar.google.com/citations?user=YjArt68AAAAJ&hl=en). that characterizing his work as "fringe" seems a bit much. I work in this field (but have never met him). He is a widely recognized expert in molecular spectroscopy. Personally I do not want to waste time throwing stones. We should Wikipedia:Assume good faith and just fix the problems. Qflib (talk) 20:30, 16 September 2024 (UTC)
- I remember I had to revert lots of Bunker's "contributions" to physics; the content turned out to be WP:FRINGE and also false; I advise you to check Bunker's work against other authors. If some "information" is available only in Bunker and not elsewhere, it can be problematic – and judging by the looks of the last section of the article, it definitely needs some editing. A1E6 (talk) 06:08, 16 September 2024 (UTC)
- Watson and Higgins are Bunker's associates. 6+ citations are not OK, given the editing history of the article. I suggest completely rewriting the "Molecular rotation and molecular nonrigidity" section, for example to an old version, making no mention of Bunker or associates. Remember: there are socks/anons dedicated to promoting Bunker, see e.g. the editing history of this one [2]. A1E6 (talk) 22:59, 15 September 2024 (UTC)
vibrational modes of ammonia
editPerhaps it would be better to use a rigid nonlinear molecule as the example here. Nonrigid molecules like ammonia are more tricky to deal with. Bunkerpr (talk) 13:17, 26 October 2024 (UTC)