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== |
== Chart looks rather out of date == | ||
The chart needs updating - as it ends in 2006 - missing the latest solar cycle. | |||
] had a long section on climate-stuff, but not as long as the stuff we have here. So I've arbitrarily declared this the main article, for now, and here is what was there, to be merged in as required. Note that the 0.1K stuff is new ] (]) 18:42, 30 January 2012 (UTC) | |||
] (]) 14:46, 7 April 2014 (UTC) | |||
:: Disagree completely. The junk you have currently on solar variation is horribly written and horribly cited by contrast what is on solar cycle which you removed is well written and well cited. Your proagw content should be removed from solar variation to some climate change page. The content on Solar Cycle is correctly where it is at. The short term solar cycle affects the climate. It's not a climate change war - it's a fact. It doesn't fit with your pet theory but too bad. The citations are there and are correct. Please don't deface solar variation nor solar cycle arbitrarily William M. Connolley ] (]) 17:27, 31 January 2012 (UTC) | |||
Data collected from older U.S. and European spacecraft previously showed that the ] is about 0.07 percent brighter in years of solar maximum, at peak sunspot activity, than during solar minimum, when spots were rare. This ] correlates with a variation of ±0.1°K in measured global temperature.<ref name="solar-climate">{{cite journal |author=C. D. Camp and K. K. Tung |journal=Geophysical Research Letters |volume=34 |issue= |pages= L14703 | title=Surface warming by the solar cycle as revealed by the composite mean difference projection |url=http://depts.washington.edu/amath/research/articles/Tung/journals/GRL-solar-07.pdf |date=2007 |doi= 10.1029/2007GL030207 | accessdate=20 January 2012}}</ref> Variations of this magnitude are too small to have contributed appreciably to the accelerated ] observed since the mid-1970s.<ref name="UCARbrightness">{{cite pressrelease | title=Changes In Solar Brightness Too Weak To Explain Global Warming | publisher=] | url=http://www.ucar.edu/news/releases/2006/brightness.shtml |date=September 13, 2006 | accessdate=18 April 2007 }}</ref> | |||
On the other hand, an analysis of data from NASA's ] challenged the idea that decreasing solar activity cools the Earth, and vice versa.<ref name="InvertedForcingpaper">{{cite journal |author= |journal=Nature |volume=467 |issue=7316 |pages= | title=An influence of solar spectral variations on radiative forcing of climate | url=http://www.nature.com/nature/journal/v467/n7316/full/nature09426.html |date=October 6, 2010}}</ref> Solar activity seems to work the opposite way around: less visible light reaches the Earth's surface during the Solar maxima than during the minima. This is caused by redistribution of the Solar energy during the maxima from the visible light, which actually heats the surface and the ], to the ultraviolet light, which is absorbed high above the ground in the ]. The research also found that the Sun may have caused as much warming as carbon dioxide over the period of the declining solar cycle from 2004 to 2007.<ref name="InvertedForcing">{{cite pressrelease | title=Declining solar activity linked to recent warming | publisher=] | url=http://www.nature.com/news/2010/101006/full/news.2010.519.html |date=October 6, 2011| accessdate=20 October 2011 }}</ref> | |||
Recent research suggests that there may also be regional climate impacts due to the solar cycle. Measurements from the Spectral Irradiance Monitor on NASA's ] show that solar UV output is more variable over the course of the solar cycle than scientists had previously thought. Climate models taking this information into account suggest these changes may result in, for example, colder winters in the US and southern Europe and warmer winters in Canada and northern Europe during solar minima.<ref name="SolarForcing">{{cite journal | title=Solar forcing of winter climate variability in the Northern Hemisphere | journal=] |date=October 9, 2011 |author=Ineson S., Scaife A.A., Knight J.R., Manners J.C., Dunstone N.J., Gray L.J., Haigh J.D. |volume=4 |pages=753–7 |doi=10.1038/ngeo1282 |url=http://www.nature.com/ngeo/journal/v4/n11/full/ngeo1282.html | issue=11}}</ref> | |||
Recent research at CERN's ] facility examines links between ] and ]. Dr. Jasper Kirby, an experimental particle physicist currently with CERN and a team leader at ] said, "At the moment, it actually says nothing about a possible cosmic-ray effect on clouds and climate, but it's a very important first step."<ref name="Cosmic Clouds">{{cite pressrelease | title=Cloud formation may be linked to cosmic rays | publisher=] | url=http://www.nature.com/news/2011/110824/full/news.2011.504.html |date=August 24, 2011| accessdate=19 October 2011 }}</ref><ref name="Cosmic Cloud Article">{{cite journal| title=Role of sulphuric acid, ammonia and galactic cosmic rays in atmospheric aerosol nucleation |journal=Nature | url=http://www.nature.com/nature/journal/v476/n7361/full/nature10343.html |date=August 25, 2011 |author=Kirkby J |volume=476 |issue=7361 |pages=429–433 |doi=10.1038/nature10343| author-separator=,| author2=Curtius J| author3=Almeida J| author4=Dunne E| author5=Duplissy J| display-authors=5| last6=Ehrhart| first6=Sebastian| last7=Franchin| first7=Alessandro| last8=Gagné| first8=Stéphanie| last9=Ickes| first9=Luisa| pmid=21866156 }}</ref> During periods of high solar activity (during a solar maxima), the Sun's magnetic field shields the planet from cosmic rays. During periods of low solar activity (during solar minima), more cosmic rays reach Earth, potentially creating ultra-small aerosol particles which are precursors to ].<ref name="CERN Clouds">{{cite pressrelease | title= CERN’s CLOUD experiment provides unprecedented insight into cloud formation | publisher=] | url=http://press.web.cern.ch/press/PressReleases/Releases2011/PR15.11E.html |date=August 25, 2011| accessdate=03 November 2011 }}</ref> | |||
More broadly, links have been found between solar cycles, global climate and events like ],<ref></ref> and a study indicates that heat caused by El Nino has a temporal correlation with ]s.<ref></ref> In other research, Daniel J. Hancock and Douglas N. Yarger found "statistically significant relationships between the double sunspot cycle and the 'January thaw' phenomenon along the East Coast and between the double sunspot cycle and 'drought' (June temperature and precipitation) in the Midwest."<ref>{{cite journal |author=Hancock DJ, Yarger DN |title=Cross-Spectral Analysis of Sunspots and Monthly Mean Temperature and Precipitation for the Contiguous United States |journal=Journal of the Atmospheric Sciences |volume=36 |issue=4 |pages=746–753 |year=1979 |doi=10.1175/1520-0469(1979)036<0746:CSAOSA>2.0.CO;2 |url=http://www.solarstorms.org/USPrecip.html |issn=1520-0469}}</ref> | |||
One well-documented correlation between solar activity and climate change is the Maunder minimum, which occurred at the same time as the ] period during which cold weather prevailed in Europe.<ref></ref> Research had suggested that a new 90-year Maunder minimum would result in a reduction of global average temperatures of about 0.3°C, which would not be enough to offset the ongoing and forecasted average global temperature increase due to ].<ref>{{cite news|url=http://www.newscientist.com/article/mg20527494.700-a-quiet-sun-wont-save-us-from-global-warming.html|title=A quiet sun won't save us from global warming|date=26 February 2010|work=]|accessdate=7 June 2011}}</ref> | |||
:Per the suggestion, I've made an attempt to clean up the article a bit and move all of the material to the appropriate article (that is, if it's related to the 11 year cycle, the ] article, if it's related to long-term solar variability, this article). Hope this is satisfactory to everybody! ] (]) 20:18, 31 January 2012 (UTC) | |||
::I just read through the lastest versions of both, and it looks to be a pretty fine splitting of the pages for the most part. Another possibility (but one which doesn't seem necessary at the moment) would be to create an entirely separate article on ], as there's certainly enough material to do so.... | |||
::I do have one not-insigificant concern, and that is the material presented in the paragraph beginning "In 1991, Knud Lassen of the Danish Meteorological Institute...." In particular, the linked therein terminates with the solar cycle peaking in 1991. In addition to the problems laid out in its own paragraph, the length of the solar cycle has dramatically increased (gone down in the graph) in the past two cycles (last minima separated by almost 13 years!) while temeperature has risen another 0.2-0.3K, so the postulated correlation is now complete rubbish. I'd lean towards deleting that entire paragraph as no longer relevant.... ] (]) 20:43, 31 January 2012 (UTC) | |||
:::::OK, I went back and dug up the original paper http://www.sciencemag.org/content/254/5032/698.abstract (which, mysteriously, was not cited or linked in the article) and the criticisms of it. I agree with you that it looks like the work in question has not held up, but (as the article says) the work is well cited, and the criticisms are detailed in the wikipedia article, so I'd think it's material worth keeping. Another problem is that the paragraph discussing the work is somewhat out of place-- it's sandwiched between two other papers not related to it-- but offhand I don't see a better place to move it to without a bit of rewriting. ] (]) 22:01, 1 February 2012 (UTC) | |||
:::there were thirteen very solid citations in the material that William M. Connolley removed and there are now only 5 much less substantial citations in the new rewrite on Solar Cycle. The quality of Misplaced Pages has suffered due to the actions of William M. Connolley and his cabal here today. This is why serious people don't contribute on here and why authorship is down.] (]) | |||
:The section in the ] article is short because most of the material from that was moved to this article, but there is a prominent link at that article to this one, so it should be easy to find. | |||
::The concern is that there was no movement, just a deletion from solar cycle, and no discussion about moving. William M. Connolley merely "stated" that he was going to move and refused to collaborate on what we should do on talk or what it should look like. His cabal enforced the move and that was that. Now you and I are rewritting, a supposedly smaller version of terrestrial impacts on Solar Cycle but the decision to delete was entirely William M. Connolley's.] (]) 16:54, 1 February 2012 (UTC) | |||
:I do notice that there was one paragraph I missed, the one discussing the Maunder minimum. I'm about to put that back in. ] (]) 04:04, 1 February 2012 (UTC) | |||
::Thx much] (]) 16:54, 1 February 2012 (UTC) | |||
== Historical perspective == | == Historical perspective == | ||
Is this quote really helpful? First off, it talks about weather prediction, not climate. The quote itself is ambiguous, open to interpretation as either: "history has shown time and again that it is pseudo-science" or as "in those days it was seen as pseudo-science, but now we have a better understanding". The intro of the source text would be a better choice imo: | |||
This purely ProAGW long paragraph was lifted directly from a published book. Aside from making the article read as a ProAGW rant, it could be a Copyvio (too long to be fair use probably). Please discuss here if you want to reinstate and why.] (]) 19:20, 1 February 2012 (UTC) | |||
:''Since it is the Sun's energy that drives the weather system, scientists naturally wondered whether they might connect climate changes with solar variations. Yet the Sun seemed to be stable over the timescale of human civilization. Attempts to discover cyclic variations in weather and connect them with the 11-year sunspot cycle, or other possible solar cycles ranging up to a few centuries long, gave results that were ambiguous at best. These attempts got a well-deserved bad reputation. Jack Eddy overcame this with a 1976 study that demonstrated that irregular variations in solar surface activity, a few centuries long, were connected with major climate shifts. The mechanism was uncertain, but plausible candidates emerged. '' ] (]) 20:18, 20 October 2013 (UTC) | |||
:The quotation is not extensive, it is set out from regular text as a quotation, it is verbatim, and it is attributed - thus it cannot be a ], and it follows ] to the letter. As for being a "ProAGW rant" - that is not an argument - sorry. --] (]) 20:12, 1 February 2012 (UTC) | |||
::For what it's worth, I didn't see this as being a noticeably "ProAGW" quote-- it seems to read more like a cautionary note warning about how hard it can be to extrapolate trends out of correlations. To the extent that it's saying that people in the past thought that they had a good theory of how climate worked, and they turned out to be wrong, I would read this as giving a similar caution to present-day scientists against excessive certainty: we may think we know what we're doing, but we may also be wrong. ] (]) 21:39, 1 February 2012 (UTC) | |||
***************** | |||
'''Historical perspective''' | |||
Physicist and historian ] in ''The Discovery of Global Warming'' (2003) writes: | |||
<blockquote>The study of cycles was generally popular through the first half of the century. Governments had collected a lot of weather data to play with and inevitably people found correlations between sun spot cycles and select weather patterns. If rainfall in England didn't fit the cycle, maybe storminess in New England would. Respected scientists and enthusiastic amateurs insisted they had found patterns reliable enough to make predictions. Sooner or later though every prediction failed. An example was a highly credible forecast of a dry spell in Africa during the sunspot minimum of the early 1930s. When the period turned out to be wet, a meteorologist later recalled "the subject of sunspots and weather relationships fell into dispute, especially among British meteorologists who witnessed the discomfiture of some of their most respected superiors." Even in the 1960s he said, "For a young researcher to entertain any statement of sun-weather relationships was to brand oneself a crank."<ref name="Weart" /></blockquote> | |||
****************** | |||
== Lassen & Friis Christensen == | |||
Why exactly do we have such a long section on this? Earlier it might have been needed since this was an important conflict. But at this point in time, the conflict has been resolved, and while the correlation might have seemed interesting then, it turned out to be a case of correlation != causation. --] (]) 22:36, 1 February 2012 (UTC) | |||
: There is a lot of brokeness. We also have (start with!) "Variations in total solar irradiance (TSI) were found to be the most likely cause of significant climate change prior to the industrial era by a U.S. National Academy of Sciences study, and in 1997, astronomer Sallie Baliunas suggested that changes in the sun "can account for major climate changes on Earth for the past 300 years, including part of the recent surge of global warming."" (and the NAS study is from 1994). SB shouldn't be there, and we should find a more recent ref than NAS. The whole lot needs going over ] (]) 11:21, 2 February 2012 (UTC) | |||
::The Baliunas citation references a quote in a Harvard newspaper. It does relate to how people were thinking as of 1997, but it's right on the edge of what is citeable, and probably the wrong edge. If he said the same thing (with actual numbers) in some more referenceable place, we should cite that, otherwise, makes sense to dump it. | |||
::I haven't dug up and read the 1994 NAS study. Reports by the National Academy of Sciences are the gold standard of a reliable source, though, so I can't see cutting it. | |||
::I agree that the Friis-Christensen & Lassen paper seems to be now considered at best a coincidental correlation. At the moment the article has three sentences explaining what the paper says, and six sentences explaining why it's wrong. If you think this is too much, I don't see that we can shorten the discussion of the paper itself by very much. The paper appeared in ''Science'', a reputable source, and (as mentioned in the article), is a paper that is referenced a lot; so shortening this section would mean that you want to cut back on the text explaining why the paper is wrong. | |||
::The text does seem to be out of place in the location it's in, though; it does not relate to the earlier or later section. It would be better organized if we added a new sub-heading for "correlations with length of solar cycle" for this particular material. ] (]) 14:52, 2 February 2012 (UTC) | |||
::--OK, I deleted the marginally-notable Baliunas quote, and put the discussion of the Friis-Christensen & Lassen paper discussion in its own subsection. I think it reads better now. ] (]) 15:17, 2 February 2012 (UTC) | |||
== Clouds and galactic cosmic rays == | |||
Just to explain my edit: | |||
The previous version of the article had the discussion of clouds and cosmic rays split in three places, without (as far as I can see) an organizational reason for which material was in which place. This revision put the material relating to ''how'' cosmic rays and solar activity affect cloud in the "effects on clouds" subsection of "Solar interactions with Earth"; and put the material discussing the effect, and how much cloudiness is produced, in the "Weather" subsection of "Solar Variation and Climate." (I also left the CERN material there-- it seemed to fit the logical flow-- but added a citation in the earlier section.) | |||
I did some minor clean-up while moving, but don't think I made any changes to the material, nor added or deleted any references, just repositioned them. | |||
] (]) 21:46, 3 February 2012 (UTC) | |||
:] sounds like a good article title. Is there any scientific research hypothesizing a causal link between them? --] (]) 02:13, 8 February 2012 (UTC) | |||
Yes, there's a number of papers hypothesizing ways that there could be a causal link. Check the citations in the "Effects on Clouds" subsection (references 47-50 and 82, 87, and 88 in the current version of the article). At the moment, whether the effect is large enough to be noticeable in the real world is still unclear. ] (]) 14:44, 8 February 2012 (UTC) | |||
:The article itself is rife with such conflicts. I don't expect an easy resolution. ] (]) 12:50, 7 November 2013 (UTC) | |||
: Most of the content regarding Clouds and cosmic rays is spread out over Misplaced Pages. The theory was originally proposed I think in 1959 and has been well documented. Some knowledge concentrated in ] and ]. ] (]) 19:44, 9 February 2012 (UTC) | |||
== Solar constant == | |||
: Geoffrey, note that your link to Galactic Cosmic Rays leads to a different page from just Cosmic Rays.] (]) 20:08, 9 February 2012 (UTC) | |||
The article states that "The amount of solar radiation received at the outer limits of Earth's atmosphere averages 1366 W/m<sup>2</sup>." Yet the Misplaced Pages article on the ] gives the value of 1361 W/m<sup>2</sup>. Can anyone explain the discrepancy? Thanks. ] (]) 20:11, 27 March 2014 (UTC) | |||
== Activity and variation == | |||
:The lower estimate is more recent. Don't know if it is controversial. See ]. ] (]) 06:06, 16 July 2015 (UTC) | |||
Are there any actual astronomers here? ] is not the same as ]. What is the appropriate term for significant things that the sun does? The most significant things I know about are: | |||
#]s and ] - these vary a lot, on an 11-year (or 22-year) cycle | |||
#] - this changes in lockstep with the sunspots, right? | |||
#] (i.e., "sunlight" ) - this varies vary little (hence the concept of a "]") | |||
::I moved the order of these around slightly, to put the solar constant before the variation in solar constant, but didn't change the actual number without a canonical reference. Different sources do use slightly different totals. Several links were redirects to "]", so I consolidated these to just one place. ] (]) 17:34, 19 July 2015 (UTC) | |||
== Predictions based on patterns == | |||
:Hi Ed. Strictly speaking, "solar activity" is "what's going on", and "solar variation" is "how much is what's going on changing"? However, the two are so closely coupled that the terms are effectively used to describe the same thing. The ] isn't a constant. It does indeed change with solar activity, but only fairly little (which is why it only has a minor effect on global warming, which is why deniers often make solar variation seem to be BIGGER so they can pretend "it's not CO2"). If you check ] in the article, you can see that the red line (yearly variations in "the solar constant") very closely matches the direct indicators of solar activity. You can also see that the change over time is small - about 1 W/m<sup>2</sup>, or somewhat less than 0.1%. This is not measurable with pre-modern instruments, and it is much less than the ~3.5% yearly variation that we see due to the eccentricity of the earth's orbit. That's why the solar constant is called "constant", although it really is not. See ]. ;-) --] (]) 10:32, 4 February 2012 (UTC) | |||
This section is a bit rubbish. Firstly, it "predicts" the 2010 peak, and no-one (including me!) has bothered update it for whatever happened. Secondly, its almost all about "predicting" climate (has it been copied in from elsewhere) not predicting the cycles, so it belongs under the climate heading ] (]) 08:15, 16 February 2015 (UTC) | |||
::Thanks for your courteous and detailed response. I wonder, though, if both of us are using words the same way. | |||
== Cosmic ray claim == | |||
::I have been thinking that "changes in solar activity" includes both (1) the fairly little changes in the ] and (2) changes in ]s. Note that I have turned ] into a disambig page. | |||
Why is the stuff on cosmic rays in there? It doesn't apply to solar variation in any way. ] (]) 16:41, 15 July 2015 (UTC) | |||
::The part I think is clear is that ] reaching the Earth (as ]) varies only fairly little. The part that's not clear is that changes in sunspots affect the ], which in turn affects the amount of ] which enter the earth's atmosphere. | |||
:I'm not sure I understand the question. The sun's magnetic field deflects galactic cosmic rays. Thus, cosmic rays decrease with higher solar actitity. So this is related to solar variation. | |||
::Some "deniers" are concerned with irradiance, but others are concerned with cosmic rays. Is there a term for changes in solar activity which comprises both ] changes and ] changes? Or does "]" refer only to the former? --] (]) 16:06, 4 February 2012 (UTC) | |||
:However, if you're just saying that there's too much on this subject for the article -- well, ok, maybe there is, and possibly it should be compressed and put into a single subsection, instead of spread over several. | |||
::: I don't think it's just "deniers" who are concerned with irradiance and cosmic rays. Very serious scientists are engaged in very material scientific endeavors related to the solar irradiance variation and cosmic ray variation. I would say that solar variation deals with variation in the solar output and also with other variations with the sun like variations in the sun's magnetic field & solar wind which in turn has an effect on cosmic rays hitting the earth. So in the climate section of this page, heaven help me for saying this, we should note that variations in the solar magnetic field & solar wind may cause an impact to cosmic rays hitting the earth. However, I stand by my assertion that this page should be mostly about solar variation (the actual physical changes to the sun) and that the terrestrial climate topic and climate change and other impacts of the sun on the earth should be handled in their respective pages with only summaries here.] (]) 20:34, 9 February 2012 (UTC) | |||
:--by the way, you changed the term "galactic cosmic rays" to just "cosmic rays" in several places. I'm going to change those back-- the more generic term "cosmic rays" can also refer to solar proton events, which of course increase with solar activity. ] (]) 20:37, 16 July 2015 (UTC) | |||
== Restructure proposal == | |||
Ed, here is some more thinking on things that vary: | |||
{{tlu|User:Lfstevens/sandbox}} | |||
#]s and ] - these vary a lot, on an 11-year (or 22-year) cycle | |||
#] - this changes in lockstep with the sunspots, right? | |||
#] (i.e., "sunlight" ) - this varies vary little (hence the concept of a "]") | |||
# Sun's Magnetic Field Strength - varies with the sunspot cycle and with the conveyor belt cycle | |||
# Sun's Magnetic Field Pole - It flips from time to time | |||
# Sun's Great Conveyor Belt - varies in speed over time and we think has a longer term impact on the sun | |||
# CME's - vary depending on a whole bunch of variables | |||
=== Comments === | |||
Then beyond that, we have longer term solar variations like the fact that the sun is slowly getting hotter as it progresses along the main sequence. This page though seems to not be focused on that. It appears largely to have been built to promote or detract from AGW theory. I would like it to be more about our Sun's Variations but I'm outvoted largely. I'd engage Geoffrey Landis. He edits here and while his time is limited he is a Physicist from NASA who knows his stuff and is very balanced. ] (]) 15:06, 10 February 2012 (UTC) | |||
* | |||
== Abbot's solar variation tool == | |||
* | |||
Hi everyone! I just uploaded an image of ] utilizing a tool which, I believe, he uses to "read" solar variation. Perhaps it will be of some use for this article! You can find the image ]. -- ] (]) 19:21, 11 April 2012 (UTC) | |||
:What fun. Certainly gives historical perspective. '']'' 20:54, 11 April 2012 (UTC) | |||
:: I had a look, but I'm not sure what the picture is of. Guessing, I'd say it was some kind of mechanical fourier-analysis device ] (]) 21:16, 11 April 2012 (UTC) |
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Chart looks rather out of date
The chart needs updating - as it ends in 2006 - missing the latest solar cycle. 131.111.23.90 (talk) 14:46, 7 April 2014 (UTC)
Historical perspective
Is this quote really helpful? First off, it talks about weather prediction, not climate. The quote itself is ambiguous, open to interpretation as either: "history has shown time and again that it is pseudo-science" or as "in those days it was seen as pseudo-science, but now we have a better understanding". The intro of the source text would be a better choice imo:
- Since it is the Sun's energy that drives the weather system, scientists naturally wondered whether they might connect climate changes with solar variations. Yet the Sun seemed to be stable over the timescale of human civilization. Attempts to discover cyclic variations in weather and connect them with the 11-year sunspot cycle, or other possible solar cycles ranging up to a few centuries long, gave results that were ambiguous at best. These attempts got a well-deserved bad reputation. Jack Eddy overcame this with a 1976 study that demonstrated that irregular variations in solar surface activity, a few centuries long, were connected with major climate shifts. The mechanism was uncertain, but plausible candidates emerged. Ssscienccce (talk) 20:18, 20 October 2013 (UTC)
- The article itself is rife with such conflicts. I don't expect an easy resolution. Batvette (talk) 12:50, 7 November 2013 (UTC)
Solar constant
The article states that "The amount of solar radiation received at the outer limits of Earth's atmosphere averages 1366 W/m." Yet the Misplaced Pages article on the solar constant gives the value of 1361 W/m. Can anyone explain the discrepancy? Thanks. Mhklein (talk) 20:11, 27 March 2014 (UTC)
- The lower estimate is more recent. Don't know if it is controversial. See Solar irradiation. Lfstevens (talk) 06:06, 16 July 2015 (UTC)
- I moved the order of these around slightly, to put the solar constant before the variation in solar constant, but didn't change the actual number without a canonical reference. Different sources do use slightly different totals. Several links were redirects to "solar irradiance", so I consolidated these to just one place. Geoffrey.landis (talk) 17:34, 19 July 2015 (UTC)
Predictions based on patterns
This section is a bit rubbish. Firstly, it "predicts" the 2010 peak, and no-one (including me!) has bothered update it for whatever happened. Secondly, its almost all about "predicting" climate (has it been copied in from elsewhere) not predicting the cycles, so it belongs under the climate heading William M. Connolley (talk) 08:15, 16 February 2015 (UTC)
Cosmic ray claim
Why is the stuff on cosmic rays in there? It doesn't apply to solar variation in any way. Lfstevens (talk) 16:41, 15 July 2015 (UTC)
- I'm not sure I understand the question. The sun's magnetic field deflects galactic cosmic rays. Thus, cosmic rays decrease with higher solar actitity. So this is related to solar variation.
- However, if you're just saying that there's too much on this subject for the article -- well, ok, maybe there is, and possibly it should be compressed and put into a single subsection, instead of spread over several.
- --by the way, you changed the term "galactic cosmic rays" to just "cosmic rays" in several places. I'm going to change those back-- the more generic term "cosmic rays" can also refer to solar proton events, which of course increase with solar activity. Geoffrey.landis (talk) 20:37, 16 July 2015 (UTC)