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Merger from Spiral nebula
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The contents of the Spiral nebula page were merged into Spiral galaxy. For the contribution history and old versions of the redirected page, please see its history; for the discussion at that location, see its talk page. |
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How is it that something that seems so simple can be so complicated? All of our lives are in this galaxies hands and the is nothing that we can do but sit and wait for somthing to happen all over again.-- 207.12.157.2 15:38, 6 September 2005 (UTC)Sara Huey 207.12.157.2 15:38, 6 September 2005 (UTC)
i try not to think about it too much cos it can get pretty confusing pretty quick!
I'm having some trouble with the proposed explanation for spiral structure in the article, "The first acceptable theory was devised by C. C. Lin and Frank Shu in 1964. They suggested that the spiral arms were manifestations of spiral density waves. They assumed that the stars travel in slightly elliptical orbits and that the orientations of their orbits is correlated, i.e. the ellipses vary in their orientation (one to another) in a smooth way with increasing distance from the galactic center." The diagram illustrates a sequence of concentric ellipses with differing orientations, all centered at the galactic center, and postulates these elipses as the orbits of stars in the galaxy: that the stars orbit in elipses *centered* at the galactic center. But shouldn't eliptical orbits aroung the galactic center have the galactic center at one focus, rather than at the center? Or is the fact that there is a distribution of mass over the whole galaxy, and not just at the center the cause? In any case, I found this point confusing, and I think it merits an explanation. Althai 22:14, 3 October 2006 (UTC)
Interference patterns caused by gravitational waves from two black holes orbiting each other? If the spiral density wave diagram is accurate, then two things must be true. Firstly, the center of mass would have to be elliptical and therefore binary.Secondly, it would have to be rotating,(or it wouldn't be binary for long.) This would have the effect of creating an S-shaped stream of point sources of intense gravity travelling outward (presumably at the speed of light), and tapering off in all directions.It would look much like the stream of water from a sprinkler with two rotating jets. Any mass that comes in contact with the stream, would either give energy to or receive energy from the binary system causing its rotation to speed up and slow down. Each time the "wave" passes the whole system would become more and more balanced. An interesting note is that if enough mass is swept into the arms to overpower the binary system's gravity, it could conceivably start to come apart, creating perhaps a barred spiral, and eventually two galaxies that fly apart. amateur 1 December 2006
Agree. Merge into a historical section and make spiral nebula redirect here. -- IanOsgood 16:09, 4 June 2007 (UTC)
Merge - The term spiral nebula is merely a footnote in the history of astronomy. Spiral galaxy could use some observational history.-- mikeu 22:41, 4 June 2007 (UTC)
Agree with both of the above comments - an alternative, historical name doesn't deserve it's own article. I'm thinking of doing some work on the spiral galaxy article anyway, so I'll do it then, if no-one else does it first and no-one objects. Cosmo0 22:56, 20 September 2007 (UTC)
In a recent paper published in Proceedings of The Royal Society A, Charles Francis and Erik Anderson presented a model of spiral arms, matching observations and showing how the mutual gravity between stars causes orbital rosettes to align so as to form logarithmic spirals. Density wave theory is shown to be based on elementary mathematical mistakes and incorrect physics, and makes observationally incorrect predictions about stellar motion (stars do move along the arms, and orbits are not nearly circular). I have editted this article accordingly RQG ( talk) 07:25, 25 August 2009 (UTC)
I concede there is a certain awkwardness. However, the material given is not really a theory of physics, but rather a straightforward application of Newtonian gravity, which does have widespread acceptance. In so far as it is possible to tell, the mechanism describe is largely accepted by those who study it. A theory of science is scientific not because it is well known, but because it adheres to observation and because it is shown to adhere to fundamental scientific laws by correct mathematical argument. It should also be noted that the previous material on density wave theory had also not achieved universal acceptance, and moreover contained a number errors of empirical fact. Worse, if we define a crank theory to be one which is based on elementary mathematical and/or physical errors, density wave theory is a crank theory. However, because it has been prominant, density wave theory remains in the article and still has its own page. RQG ( talk) 08:11, 29 August 2009 (UTC)
In fact the animation is based on a flat rotation curve. The idea that it is not is an illusion resulting from the fact that if velocity is independent of radius, then angular velocity is inversely proportional to radius. Note too that the graph in the referenced article is a simplification and and does not show the observed velocity dispersion. The match between the model and actual data is shown in some depth in the refereed paper in Proc Roy Soc A. An independent view (in addition to that of two reviewers) has been given by Astronomer Rainer Klement, of the Max Planck Institute for Astronomy in Heidelberg, Germany, who has said the paper "comes up with an elegant way of explaining the velocity distribution we observe in the solar neighborhood." RQG ( talk) 07:09, 30 August 2009 (UTC)
Note that, quite independently of the rotation curve, stars near pericentre move faster than stars near apocentre. This contributes to the visual effect, because stars at the outer edge of the animation are necessarily near apocentre, whereas stars on the inner edge are necessarily near pericentre. The article contains no discussion of the rotation curve because spiral structure has no direct dependency on the rotation curve. The model has been shown from analysis of Newtonian gravity, supported with computer simulation, and matched with available data (one cannot fit where data is not available). The refereed article also gives explanation of the forms of flocculent spirals, multiarmed spirals, bars, inner rings, and circular rings. RQG ( talk) 04:41, 31 August 2009 (UTC).
I've backed out some of the contested material, following User:Sławomir Biały, who took it out and then put it back. This kind of WP:COI is totally inappropriate in wikipedia. There's no problem mentioning these these new ideas, based on their appearance in secondary sources, if any. But to call previous work "mistakes" with citations to a new website of your own ideas that ridicules the old work is way beyond normally acceptable behavior -- even if you're right. The better way to proceed to is to make your case in conventional media, and let wikipedia follow slowly along, based on its policies of WP:V, WP:RS, WP:NOR, etc. Dicklyon ( talk) 06:45, 1 December 2009 (UTC)
I have concerns about the current formulation of the first paragraph about the origin of the spiral structure. First, the winding problem is adressed. After that, it is stated (in a arkward manner, I would say) that the outer stars would have to move faster (angular velocity, orbital velocity?) than those close to the galactic center to maintain a spiral structure. The following sentence is simply not true. It is true that the orbital velocity of outer stars is higher than one would expect from the Kepler laws but a flat orbital velocity curve does not mean a flat curve for the angular velocity. Only a angular velocity that is constant for all stars no matter how far from the galactic center would result in a "solid-object-like" rotation. This flat curve of orbital velocity therefore does not account for the obvious stability of the spiral structure, at most it would slow down the winding. Also, I find the note, that the flat curve for the tangential velocity is an evidence for the existence of dark matter, is misplaced at this point. I have editetd the page according to my concerns. I would like anyone who is interested in this matter to have quick look on it and may be do his own corrections of my version. Exphysus ( talk) 16:48, 3 February 2010 (CET). 74.116.154.204 ( talk) 16:48, 29 November 2011 (UTC) I am thoroughly confused. Is there any way non-locality is involved in star formation?
Is this really considered to be a legitimate competing theory or is it something proposed by a handful of scientific outliers? If the former, then why isn't there more information, as there is with the density wave model? Also, why is there a whole sub-page dedicated to this theory that only consists of three sentences?
If it's a genuine accepted competing theory, then it seems to me that the sub-page should be deleted and that info should just be folded into the main article, which could handle an extra three whole sentences. If it's not accepted by the scientific community at large then I think it should be deleted.
Shoeless Ho ( talk) 16:34, 12 January 2012 (UTC) Bold text
"Together with irregular galaxies, spiral galaxies make up approximately 60% of galaxies in the local Universe."
Why does this statement group irregular and spiral galaxies together, when they seem quite different? What proportions of that 60% are attributable to each type? Without these details, the statement seems pointless and confusing. — Preceding unsigned comment added by 24.213.20.170 ( talk) 17:59, 9 January 2014 (UTC)
The remark, under "Density wave model", about a bogus diagram, needs resolving. — Preceding unsigned comment added by Racialism123racialism123racialism ( talk • contribs) 16:56, 26 February 2014 (UTC)
I was reading a 19th century book on batteries (Storage of Electrical Energy by Gastone Plante) and came across speculation about the nature of spiral nebulae. His speculations were not correct, but I was curious to know at what point it became known that spiral nebulae were in fact galaxies, i.e. I wanted to know the history of an obsolete theory, I did not want to read about current theory that I'm already well aware of, so I suggest that redirect was ill judged - the current article does not discuss the subject matter I was redirected from. My second problem is that this article begins by claiming that spiral galaxies were "originally described by Hubble in 1936". If we accept that spiral nebulae and spiral galaxies are essentially the same thing (implied by the redirect?), just explained differently, then that opening statement is clearly not true, otherwise Plante writing in the mid-1800's could not have known about them. At the very least this statement needs to be clarified. — Preceding unsigned comment added by 31.48.1.234 ( talk) 09:40, 1 August 2014 (UTC)
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I propose that Gravitationally aligned orbits be merged into Spiral galaxy. The reasons are as follows:
Thanks -- UbedJunejo ( talk• cont) 18:14, 6 March 2018 (UTC)
The article mentions 2 theories, density wave and SSPSF. However, only the former then gets many paragraphs of further explanation, which is at least stylistically unbalanced. Such a long explanation would be better moved to an article of its own -- which already exists! (So why is it taking up so much space here?) Jmacwiki ( talk) 05:38, 14 April 2018 (UTC)
Ref. #9 (Ibata et al.) relates to the unexpected planar structure of satellite galaxies observed in just 2 galaxies [and recently a 3rd]. This article does not state any connection between satellites and the spheroid, nor is it clear that it should.
FWIW, the research finding may or may not be important for theories of gravity (as one of the authors is quoted as believing), but this article is not the appropriate place to make that case.
Comments before removing that sentence and reference? Jmacwiki ( talk) 20:33, 22 April 2018 (UTC)
I would like to rewrite the section about "Origin of the spiral structure". Perhaps, moving more details to the Density wave theory page.
This section requires clean up. Right now, some of the information is simply wrong, and some "alternative" theories included are not mainstream at all.
What is wrong:
Theories should be removed from this page:
Wklee4993 ( talk) 18:42, 23 February 2019 (UTC) Kit
isnt the new black hole picture a picture of a super massive black hole? GlowZoe ( talk) 06:56, 11 April 2019 (UTC)
This is the
talk page for discussing improvements to the
Spiral galaxy article. This is not a forum for general discussion of the article's subject. |
Article policies
|
Find sources: Google ( books · news · scholar · free images · WP refs) · FENS · JSTOR · TWL |
This
level-4 vital article is rated C-class on Wikipedia's
content assessment scale. It is of interest to the following WikiProjects: | ||||||||||||||
|
Merger from Spiral nebula
Article merged: See old talk-page here.
|
The contents of the Spiral nebula page were merged into Spiral galaxy. For the contribution history and old versions of the redirected page, please see its history; for the discussion at that location, see its talk page. |
A summary of this article appears in Galaxy. |
How is it that something that seems so simple can be so complicated? All of our lives are in this galaxies hands and the is nothing that we can do but sit and wait for somthing to happen all over again.-- 207.12.157.2 15:38, 6 September 2005 (UTC)Sara Huey 207.12.157.2 15:38, 6 September 2005 (UTC)
i try not to think about it too much cos it can get pretty confusing pretty quick!
I'm having some trouble with the proposed explanation for spiral structure in the article, "The first acceptable theory was devised by C. C. Lin and Frank Shu in 1964. They suggested that the spiral arms were manifestations of spiral density waves. They assumed that the stars travel in slightly elliptical orbits and that the orientations of their orbits is correlated, i.e. the ellipses vary in their orientation (one to another) in a smooth way with increasing distance from the galactic center." The diagram illustrates a sequence of concentric ellipses with differing orientations, all centered at the galactic center, and postulates these elipses as the orbits of stars in the galaxy: that the stars orbit in elipses *centered* at the galactic center. But shouldn't eliptical orbits aroung the galactic center have the galactic center at one focus, rather than at the center? Or is the fact that there is a distribution of mass over the whole galaxy, and not just at the center the cause? In any case, I found this point confusing, and I think it merits an explanation. Althai 22:14, 3 October 2006 (UTC)
Interference patterns caused by gravitational waves from two black holes orbiting each other? If the spiral density wave diagram is accurate, then two things must be true. Firstly, the center of mass would have to be elliptical and therefore binary.Secondly, it would have to be rotating,(or it wouldn't be binary for long.) This would have the effect of creating an S-shaped stream of point sources of intense gravity travelling outward (presumably at the speed of light), and tapering off in all directions.It would look much like the stream of water from a sprinkler with two rotating jets. Any mass that comes in contact with the stream, would either give energy to or receive energy from the binary system causing its rotation to speed up and slow down. Each time the "wave" passes the whole system would become more and more balanced. An interesting note is that if enough mass is swept into the arms to overpower the binary system's gravity, it could conceivably start to come apart, creating perhaps a barred spiral, and eventually two galaxies that fly apart. amateur 1 December 2006
Agree. Merge into a historical section and make spiral nebula redirect here. -- IanOsgood 16:09, 4 June 2007 (UTC)
Merge - The term spiral nebula is merely a footnote in the history of astronomy. Spiral galaxy could use some observational history.-- mikeu 22:41, 4 June 2007 (UTC)
Agree with both of the above comments - an alternative, historical name doesn't deserve it's own article. I'm thinking of doing some work on the spiral galaxy article anyway, so I'll do it then, if no-one else does it first and no-one objects. Cosmo0 22:56, 20 September 2007 (UTC)
In a recent paper published in Proceedings of The Royal Society A, Charles Francis and Erik Anderson presented a model of spiral arms, matching observations and showing how the mutual gravity between stars causes orbital rosettes to align so as to form logarithmic spirals. Density wave theory is shown to be based on elementary mathematical mistakes and incorrect physics, and makes observationally incorrect predictions about stellar motion (stars do move along the arms, and orbits are not nearly circular). I have editted this article accordingly RQG ( talk) 07:25, 25 August 2009 (UTC)
I concede there is a certain awkwardness. However, the material given is not really a theory of physics, but rather a straightforward application of Newtonian gravity, which does have widespread acceptance. In so far as it is possible to tell, the mechanism describe is largely accepted by those who study it. A theory of science is scientific not because it is well known, but because it adheres to observation and because it is shown to adhere to fundamental scientific laws by correct mathematical argument. It should also be noted that the previous material on density wave theory had also not achieved universal acceptance, and moreover contained a number errors of empirical fact. Worse, if we define a crank theory to be one which is based on elementary mathematical and/or physical errors, density wave theory is a crank theory. However, because it has been prominant, density wave theory remains in the article and still has its own page. RQG ( talk) 08:11, 29 August 2009 (UTC)
In fact the animation is based on a flat rotation curve. The idea that it is not is an illusion resulting from the fact that if velocity is independent of radius, then angular velocity is inversely proportional to radius. Note too that the graph in the referenced article is a simplification and and does not show the observed velocity dispersion. The match between the model and actual data is shown in some depth in the refereed paper in Proc Roy Soc A. An independent view (in addition to that of two reviewers) has been given by Astronomer Rainer Klement, of the Max Planck Institute for Astronomy in Heidelberg, Germany, who has said the paper "comes up with an elegant way of explaining the velocity distribution we observe in the solar neighborhood." RQG ( talk) 07:09, 30 August 2009 (UTC)
Note that, quite independently of the rotation curve, stars near pericentre move faster than stars near apocentre. This contributes to the visual effect, because stars at the outer edge of the animation are necessarily near apocentre, whereas stars on the inner edge are necessarily near pericentre. The article contains no discussion of the rotation curve because spiral structure has no direct dependency on the rotation curve. The model has been shown from analysis of Newtonian gravity, supported with computer simulation, and matched with available data (one cannot fit where data is not available). The refereed article also gives explanation of the forms of flocculent spirals, multiarmed spirals, bars, inner rings, and circular rings. RQG ( talk) 04:41, 31 August 2009 (UTC).
I've backed out some of the contested material, following User:Sławomir Biały, who took it out and then put it back. This kind of WP:COI is totally inappropriate in wikipedia. There's no problem mentioning these these new ideas, based on their appearance in secondary sources, if any. But to call previous work "mistakes" with citations to a new website of your own ideas that ridicules the old work is way beyond normally acceptable behavior -- even if you're right. The better way to proceed to is to make your case in conventional media, and let wikipedia follow slowly along, based on its policies of WP:V, WP:RS, WP:NOR, etc. Dicklyon ( talk) 06:45, 1 December 2009 (UTC)
I have concerns about the current formulation of the first paragraph about the origin of the spiral structure. First, the winding problem is adressed. After that, it is stated (in a arkward manner, I would say) that the outer stars would have to move faster (angular velocity, orbital velocity?) than those close to the galactic center to maintain a spiral structure. The following sentence is simply not true. It is true that the orbital velocity of outer stars is higher than one would expect from the Kepler laws but a flat orbital velocity curve does not mean a flat curve for the angular velocity. Only a angular velocity that is constant for all stars no matter how far from the galactic center would result in a "solid-object-like" rotation. This flat curve of orbital velocity therefore does not account for the obvious stability of the spiral structure, at most it would slow down the winding. Also, I find the note, that the flat curve for the tangential velocity is an evidence for the existence of dark matter, is misplaced at this point. I have editetd the page according to my concerns. I would like anyone who is interested in this matter to have quick look on it and may be do his own corrections of my version. Exphysus ( talk) 16:48, 3 February 2010 (CET). 74.116.154.204 ( talk) 16:48, 29 November 2011 (UTC) I am thoroughly confused. Is there any way non-locality is involved in star formation?
Is this really considered to be a legitimate competing theory or is it something proposed by a handful of scientific outliers? If the former, then why isn't there more information, as there is with the density wave model? Also, why is there a whole sub-page dedicated to this theory that only consists of three sentences?
If it's a genuine accepted competing theory, then it seems to me that the sub-page should be deleted and that info should just be folded into the main article, which could handle an extra three whole sentences. If it's not accepted by the scientific community at large then I think it should be deleted.
Shoeless Ho ( talk) 16:34, 12 January 2012 (UTC) Bold text
"Together with irregular galaxies, spiral galaxies make up approximately 60% of galaxies in the local Universe."
Why does this statement group irregular and spiral galaxies together, when they seem quite different? What proportions of that 60% are attributable to each type? Without these details, the statement seems pointless and confusing. — Preceding unsigned comment added by 24.213.20.170 ( talk) 17:59, 9 January 2014 (UTC)
The remark, under "Density wave model", about a bogus diagram, needs resolving. — Preceding unsigned comment added by Racialism123racialism123racialism ( talk • contribs) 16:56, 26 February 2014 (UTC)
I was reading a 19th century book on batteries (Storage of Electrical Energy by Gastone Plante) and came across speculation about the nature of spiral nebulae. His speculations were not correct, but I was curious to know at what point it became known that spiral nebulae were in fact galaxies, i.e. I wanted to know the history of an obsolete theory, I did not want to read about current theory that I'm already well aware of, so I suggest that redirect was ill judged - the current article does not discuss the subject matter I was redirected from. My second problem is that this article begins by claiming that spiral galaxies were "originally described by Hubble in 1936". If we accept that spiral nebulae and spiral galaxies are essentially the same thing (implied by the redirect?), just explained differently, then that opening statement is clearly not true, otherwise Plante writing in the mid-1800's could not have known about them. At the very least this statement needs to be clarified. — Preceding unsigned comment added by 31.48.1.234 ( talk) 09:40, 1 August 2014 (UTC)
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I propose that Gravitationally aligned orbits be merged into Spiral galaxy. The reasons are as follows:
Thanks -- UbedJunejo ( talk• cont) 18:14, 6 March 2018 (UTC)
The article mentions 2 theories, density wave and SSPSF. However, only the former then gets many paragraphs of further explanation, which is at least stylistically unbalanced. Such a long explanation would be better moved to an article of its own -- which already exists! (So why is it taking up so much space here?) Jmacwiki ( talk) 05:38, 14 April 2018 (UTC)
Ref. #9 (Ibata et al.) relates to the unexpected planar structure of satellite galaxies observed in just 2 galaxies [and recently a 3rd]. This article does not state any connection between satellites and the spheroid, nor is it clear that it should.
FWIW, the research finding may or may not be important for theories of gravity (as one of the authors is quoted as believing), but this article is not the appropriate place to make that case.
Comments before removing that sentence and reference? Jmacwiki ( talk) 20:33, 22 April 2018 (UTC)
I would like to rewrite the section about "Origin of the spiral structure". Perhaps, moving more details to the Density wave theory page.
This section requires clean up. Right now, some of the information is simply wrong, and some "alternative" theories included are not mainstream at all.
What is wrong:
Theories should be removed from this page:
Wklee4993 ( talk) 18:42, 23 February 2019 (UTC) Kit
isnt the new black hole picture a picture of a super massive black hole? GlowZoe ( talk) 06:56, 11 April 2019 (UTC)