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{{Wikipedia:Reference_desk/Archives/Science/2013 October 13}}


{{Wikipedia:Reference_desk/Archives/Science/2013 October 14}}


= October 15 =


= December 13 =
== Overview of chemistry - book? ==


== What is the most iconic tornado photo ==
Can you recommend me a book that is an overview of chemistry? An overview as in it would have a short description of numerous sub-fields and some of their main results and references. --[[Special:Contributions/81.175.225.92|81.175.225.92]] ([[User talk:81.175.225.92|talk]]) 00:22, 15 October 2013 (UTC)
{{hat|Request for opinions}}
:Any high school or introductory college text will probably suffice. ''The Central Science'' by Brown, LeMay, and Bursten, or ''General Chemistry'' by Kotz and Purcell are two that I have used before. --[[User:Jayron32|<font style="color:#000099">Jayron</font>]]'''''[[User talk:Jayron32|<font style="color:#009900">32</font>]]''''' 00:54, 15 October 2013 (UTC)
What photo of a tornado would you say is the most iconic? I'm researching the history of tornado photography for an eventual article on it and I've seen several specific tornadoes pop up over and over again, particularly the [[2007 Elie tornado|Elie, Manitoba F5]] and the "dead man walking" shot of the [[1997 Jarrell tornado|Jarrel, Texas F5]]. Which would be considered more iconic? [[User:ApteryxRainWing|ApteryxRainWing🐉]] | [[User talk:ApteryxRainWing|Roar with me!!!]] | [[Special:contribs/User:ApteryxRainWing|My contributions]] 17:21, 13 December 2024 (UTC)
::Jayron, do you mean ''Chemistry and Chemical Reactivity'' by Kotz & Purcell, or ''General Chemistry'' by Kotz, Treichel, & Weaver? [[Special:Contributions/121.215.39.252|121.215.39.252]] ([[User talk:121.215.39.252|talk]]) 03:25, 15 October 2013 (UTC)
:::Both, actually. I've use the two of them, and was trying to recall by memory, and conflated the two. --[[User:Jayron32|<font style="color:#000099">Jayron</font>]]'''''[[User talk:Jayron32|<font style="color:#009900">32</font>]]''''' 10:45, 15 October 2013 (UTC)


:At the top of this page is a bullet point stating "We don't answer requests for opinions, predictions or debate": this reads to me like a request for subjective opinions. Perhaps you would like to consider what quantifiable and referenceable metric would answer what you want to know?
== ray of light theory of eyes ==
:Presumably you also want only real tornadoes considered? Otherwise some might nominate the the twister from [[The Wizard of Oz]], or from more recent tornado-related movies – [[Sharknado]], anyone? :-). {The poster formerly known as 87.81.230.195} [[Special:Contributions/94.1.223.204|94.1.223.204]] ([[User talk:94.1.223.204|talk]]) 18:07, 13 December 2024 (UTC)
:"Swegle Studios" has a couple of YouTube videos dedicated to the backstories of famous tornado photos and video; you might find them useful in your research. [https://www.youtube.com/watch?v=nti3mcldt0E Photos], [https://www.youtube.com/watch?v=WeNmCRN9VN4 Videos]. [[User:Matt Deres|Matt Deres]] ([[User talk:Matt Deres|talk]]) 18:40, 13 December 2024 (UTC)


:I googled "most iconic tornado photo" and a bunch of different possibilities popped up. I don't see how you could say that any given photo is the "most iconic". ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 18:57, 13 December 2024 (UTC)
one of our articles says " The first theory, the emission theory, was supported by such thinkers as Euclid and Ptolemy, who believed that sight worked by the eye emitting rays of light."
{{hab}}


Let's try to understand how the Greeks could have thought so. Why don't people see in a dark room? (cave etc)? Why does a 'source' of light need to be seen in this case, if eyes cast their own light? Most perplexingly - if eyes cast their own light, why can't we see the 'eyes' of other people glowing in the dark, for example? Could you explain a little the very loose kind of thinking that made this almost kind of make sense in a childlike way? [[Special:Contributions/212.96.61.236|212.96.61.236]] ([[User talk:212.96.61.236|talk]]) 00:30, 15 October 2013 (UTC)


= December 15 =
:Well, cat's eyes and some other animals reflect light, and that could be mistaken for emitting light. Perhaps they just thought human eyes emitted "invisible light" (what we might call infrared or ultraviolet), which changed to visible light under the right conditions. [[User:StuRat|StuRat]] ([[User talk:StuRat|talk]]) 00:49, 15 October 2013 (UTC)


== help to identify [[:File:Possible Polygala myrtifolia in New South Wales Australia.jpg]] ==
:: But we clearly don't see in the dark... moreover, put someone in a darkish place and then put a whole chorus full of people in front of it, their eyes all shining into it: that person can't see any better. so....? I mean it just seems so unworkable... [[Special:Contributions/212.96.61.236|212.96.61.236]] ([[User talk:212.96.61.236|talk]]) 01:11, 15 October 2013 (UTC)


[[File:Possible Polygala myrtifolia in New South Wales Australia.jpg|thumb|possible [[:w:Polygala myrtifolia]] in New South Wales Australia]] Did I get species right? Thanks. [[User:Gryllida|Gryllida]] ([[User talk:Gryllida|talk]], [[Special:EmailUser/Gryllida|e-mail]]) 06:56, 15 December 2024 (UTC)
:::''I'' see in the dark, and furthermore my eyes are sensitive to near IR (down to 800 nm) and near UV (up to 320 nm) -- the IR looks a dark reddish-brown, and the UV looks gray. [[Special:Contributions/24.23.196.85|24.23.196.85]] ([[User talk:24.23.196.85|talk]]) 05:04, 15 October 2013 (UTC)
::::That seems extremely unlikely, unless you are a bird, and even then you wouldn't be able to see IR. The [[visible spectrum]] is 390 to 700nm, [http://www.telescope-optics.net/eye_spectral_response.htm no] [http://en.wikipedia.org/wiki/Spectral_sensitivity reference] I've seen shows the outliers being anywhere close to 320-800. That's much further outside the realms of believable than human biology would permit. I would find some sources of true IR and UV light to really test yourself in a double-blind manner (you can start with the LED at the end of a remote control, with someone who isn't you pressing a button in such a way that you can't tell if they're pressing it). If real, go present your self to the Guinness record-keepers. &mdash; Sam [[Special:Contributions/63.138.152.139|63.138.152.139]] ([[User talk:63.138.152.139|talk]]) 14:24, 15 October 2013 (UTC)
:::::People (like my mother) who had cataract surgery before the latest generation of implantable lenses became available '''are''' able to see a little way into the ultra-violet. The idea that you could see into the infra-red or in total darkness is ridiculous. If [[User:24.23.196.85]] truly has these super-powers then (s)he should go find a reputable laboratory where these capabilities may be investigated. (...or [[WP:NOR]]...either way). [[User:SteveBaker|SteveBaker]] ([[User talk:SteveBaker|talk]]) 15:16, 15 October 2013 (UTC)
::::::Biologists make a lot of generalizations. I will not believe the claim without proof, but see no unevadable reason why it couldn't be true. [[User:Wnt|Wnt]] ([[User talk:Wnt|talk]]) 04:18, 17 October 2013 (UTC)
:::::::For the record, I made the measurements myself using a [[spectroscope]] and lights (an incandescent light for the first measurement, and several LEDs for the second one), so I'm reasonably sure that my vision does in fact extend beyond the normal limits of the visual spectrum, but I cannot completely rule out experimental error. I'll be glad to have this independently verified, provided you folks tell me where I can have that done and how much it's likely to cost. As for night vision, I ''never'' said I could see in complete darkness -- what I said was that I could see in relative darkness (such as on a moonless night) better than most other people, even to the extent of being able to see (some) colors by the light of a full moon. [[Special:Contributions/24.23.196.85|24.23.196.85]] ([[User talk:24.23.196.85|talk]]) 05:41, 17 October 2013 (UTC)
:Of course it's not possible to fully reconcile reality with the emission idea, which we know to be wrong. People have speculated on the reasons why this idea was so popular -- and there is even discussion on the question of why many people continue to believe it today. That comes down to thinking of ways that the emission theory has intuitive appeal. StuRat mentioned one reason (shiny eyes of animals). Another possibility is the subjective experience of heat or palpable pressure when someone is watching you; this matches the social understanding that a person who's staring at you is doing something to you, rather than you to them. As for the question about the loss of sight in darkness, that was explained either by some interaction of the sunlight with your eye's light, or by the idea that the eye doesn't create the light, but gathers it in and then sends it out again at whatever you're looking at. Here is a discussion of some of the past arguments for the emission idea: [http://books.google.com/books?id=TyiM5x5_IBIC&pg=PA53&lpg=PA53&dq=aristotle+on+emission+theory+of+vision&source=bl&ots=E0rPyBe9fZ&sig=8T7K6DG0ATbodq-u9V_W57jLspE&hl=en&sa=X&ei=8KhcUtmpOseoiALv1YGABQ&ved=0CFMQ6AEwBg#v=onepage&q=aristotle%20on%20emission%20theory%20of%20vision&f=false]. And a paper [http://people.auc.ca/brodbeck/4007/article7.pdf] and short article [http://researchnews.osu.edu/archive/eyerays.htm] discussing the question from the point of view of science education. --[[User:Amble|Amble]] ([[User talk:Amble|talk]]) 02:15, 15 October 2013 (UTC)


:related: https://species.wikimedia.org/wiki/Wikispecies:Village_Pump#help_to_identify_species [[User:Gryllida|Gryllida]] ([[User talk:Gryllida|talk]], [[Special:EmailUser/Gryllida|e-mail]]) 06:57, 15 December 2024 (UTC)
:::Are you looking for a source, or chat partners to tell you you are right? We can't tell you how correct you are, but we can recommend you read [[visual perception]], [[emission theory]], and [[intromission theory]]. [[User:Medeis|μηδείς]] ([[User talk:Medeis|talk]]) 02:19, 15 October 2013 (UTC)


:FWIW, I can't detect any visible differences between the plant in this photo and the ones illustrated in the [[Polygala myrtifolia|species]] and the [[Polygala|genus]] articles. However, the latter makes it clear that ''Polygala'' is a large genus, and is cultivated, with hybrids, so it's possible that this one could be a close relative that differs in ways not visible here, such as in the bark or roots. That may or may not matter for your purposes. {The poster formerly known as 87.81.230.195} [[Special:Contributions/94.1.223.204|94.1.223.204]] ([[User talk:94.1.223.204|talk]]) 10:11, 15 December 2024 (UTC)
::::I am offering some answers that have been given to the original question, and was slow in adding the sources from which I drew the information. --[[User:Amble|Amble]] ([[User talk:Amble|talk]]) 02:45, 15 October 2013 (UTC)


== How to address changes to taxonomy ==
:::::I am not the boss here, feel comfortable adding what you think appropriate. [[User:Medeis|μηδείς]] ([[User talk:Medeis|talk]]) 02:48, 15 October 2013 (UTC)


Hi all,
:Superman's eyes emit light. But he's a strange visitor from another planet, where apparently things work differently. ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 02:33, 15 October 2013 (UTC)
I am a biology student brand new to wiki editing who is interested in cleaning up small articles/stubs for less known taxa. One that I've encountered is a mushroom that occurs in the pacific northwest (''[[Fomitopsis ochracea]]''). The article mentions that this fungus is occasionally mistaken for another fungus, ''[[Fomitopsis pinicola]]''. <br>


However, the issue I've run into is that ''F. pinicola'' used to be considered a single species found around the world, but relatively recently was split into a few different species. The original name was given to the one that occurs in Europe, and the one in the pacific northwest (and thus could be mistaken for ''F. ochracea'') was given the name ''[[Fomitopsis mounceae]]''.
{{resolved}}
<br>
The wiki page says <blockquote><p>Historically, this fungus has been misidentified as ''F. pinicola.'' When both species are immature, they can look very similar, but can be distinguished by lighting a match next to the surface of the fungus.[1] ''F. pinicola'' will boil and melt in heat, while F. ochracea will not.[1]</p></blockquote>
<br>Since the source says ''pinicola'' (as likely do most/all other sources of this info given the change was so recent), and since technically it's true that they used to be mistaken for it... what would be the most appropriate way to modernize that section?
<br>


<B>My questions are</b>:
: See the [[transactional interpretation]] of quantum mechanics. You can say that eyes ''do'' emit a ray of light, which is propagated backward in time, and interacts with a source. As the ancients were ill equipped to measure the time of flight of the ray, positive or negative, this would have made little difference to them, and so their idea cannot be considered false. (If the ray of light travelling backward in time finds a bright light, star, etc., it is answered by another retracing the path in the opposite direction...) [[User:Wnt|Wnt]] ([[User talk:Wnt|talk]]) 04:16, 17 October 2013 (UTC)
Should I replace ''F. pinicola'' with ''F. mounceae''? Or is that wrong because the source doesn't refer to it by that name? Would it be better to write something like (now known as/considered ''F. mounceae'') next to the first mention of the species? Or is that a poor choice because it implies all the members of ''F. pinicola'' were renamed ''F. mounceae''?
<br>


Any advice on how to go about updating this section is incredibly appreciated
Resolved? What? Who made the correct answer? The ancient belief in this ray theory operated like so: Your eyes emit rays that "feel" what is around you, reporting that information back to you as sight. What a "source of light" is actually doing is modifying the properties of air/glass/water so that such rays can transmit through them. Unaltered air does not permit your eye-rays to pass, resulting in a black appearance, a shadow, across your eyes. Such an idea was attractive to people long ago, as the concept of "action at a distance" simply did not sit well with them (they were far more comfortable with explanations of the senses that were reminiscent of how we feel things with our hands). It's easy to construct experiments to either disprove the idea or require ever-more-convoluted explanations. My source for this was the history book I read when I took history of science in college. I wish I could tell you that book's title, but I don't recall. [[User:Someguy1221|Someguy1221]] ([[User talk:Someguy1221|talk]]) 04:51, 17 October 2013 (UTC)
<br>
[[User:TheCoccomycesGang|TheCoccomycesGang]] ([[User talk:TheCoccomycesGang|talk]]) 10:21, 15 December 2024 (UTC)
:::First, take these sorts of questions to the relevant Wikiproject, in this case [[Wikipedia talk:WikiProject Fungi]]. I am not as familiar with the consensus at [[WP:FUNGI]], but it seems like they defer to ''[[Index Fungorum|Species Fungorium/Index Fungorium]]'' and [[Mycobank]] to decide. Those sources presently seem to consider ''[[Fomitopsis pinicola]]'' a good species. Also, be careful about "replacing", there are rules to ensure the continuity of the article history. By the way, there is a hilarious but unencyclopedic/copyvio recipe appended to the ''[[Fomitopsis mounceae]]'' article. <span style="font-family: Cambria;"> [[User:Abductive|<span style="color: teal;">'''Abductive'''</span>]] ([[User talk:Abductive|reasoning]])</span> 11:09, 15 December 2024 (UTC)
::::Thanks for the tips, I didn't know about projects so I'll go read up on that. And thanks for the warnings about replacing things. I've been reading a lot of help pages, but I'm still in the process of learning the all conventions and what mechanics break if you do things the wrong way.
::::I actually saw the recipe ages ago before I made my account and completely forgot about it... it was one of many things that prompted me to get into wiki editing. [[User:TheCoccomycesGang|TheCoccomycesGang]] ([[User talk:TheCoccomycesGang|talk]]) 23:12, 15 December 2024 (UTC)


== Does stopping masturbation lead to sperm DNA damage? ==
== binder related to textile. ==


I'm looking for information on the potential link between the frequency of ejaculation (specifically through masturbation) and sperm DNA damage. I've come across some conflicting information and would appreciate it if someone could point me towards reliable scientific studies or reviews that address this topic.


Specifically, I'm interested in whether prolonged periods of abstinence from ejaculation might have any negative effects on sperm DNA integrity. Any insights or links to relevant research would be greatly appreciated. [[User:HarryOrange|HarryOrange]] ([[User talk:HarryOrange|talk]]) 17:08, 15 December 2024 (UTC)
Hi,
:Only males may abstain from sperm-releasing [[Masturbation]] that serves to flush the genital tract of old sperm that in any case will eventually dissipate. No causal relationship between masturbation and any form of mental or physical disorder has been found but abstinence may be thought or taught[[Abstinence-only sex education|<sup>1</sup> ]][[Abstinence, be faithful, use a condom|<sup>2</sup> ]][[Abstinence-only sex education in Uganda|<sup>3</sup>]] to increase the chance of wanted conception during subsequent intercourse. [[User:Philvoids|Philvoids]] ([[User talk:Philvoids|talk]]) 00:51, 16 December 2024 (UTC)
I want to know that which chemical can decrease the strength or stickiness or can make it completely useless to work..
::There's many rumors about that topic. One is that not ejaculating frequently increases the risk of developing [[prostate cancer]]. <span style="font-family: Cambria;"> [[User:Abductive|<span style="color: teal;">'''Abductive'''</span>]] ([[User talk:Abductive|reasoning]])</span> 01:02, 16 December 2024 (UTC)
but I want to know a chemical name, addition of water do decreases its strength but I after a lot of research I havnt got any chemical which can help me out in decreasing the strength of binder.. Pleas help me out. <span style="font-size: smaller;" class="autosigned">— Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/182.180.45.104|182.180.45.104]] ([[User talk:182.180.45.104|talk]]) 09:44, 15 October 2013 (UTC)</span><!-- Template:Unsigned IP --> <!--Autosigned by SineBot-->
:Nothing really conclusive but there's some evidence that short periods are associated with lower DNA fragmentation, see<small>
:* {{Cite journal |last=Du |first=Chengchao |last2=Li |first2=Yi |last3=Yin |first3=Chongyang |last4=Luo |first4=Xuefeng |last5=Pan |first5=Xiangcheng |date=10 January 2024 |title=Association of abstinence time with semen quality and fertility outcomes: a systematic review and dose–response meta‐analysis |url=https://onlinelibrary.wiley.com/doi/10.1111/andr.13583 |journal=Andrology |language=en |volume=12 |issue=6 |pages=1224–1235 |doi=10.1111/andr.13583 |issn=2047-2919}}
:* {{Cite journal |last=Hanson |first=Brent M. |last2=Aston |first2=Kenneth I. |last3=Jenkins |first3=Tim G. |last4=Carrell |first4=Douglas T. |last5=Hotaling |first5=James M. |date=16 November 2017 |title=The impact of ejaculatory abstinence on semen analysis parameters: a systematic review |url=https://pmc.ncbi.nlm.nih.gov/articles/PMC5845044/ |journal=Journal of Assisted Reproduction and Genetics |language=en |volume=35 |issue=2 |pages=213 |doi=10.1007/s10815-017-1086-0 |issn=2047-2919 |pmc=5845044 |pmid=29143943}}
:* {{Cite journal |last=Ayad |first=Bashir M. |last2=Horst |first2=Gerhard Van der |last3=Plessis |first3=Stefan S. Du |last4=Carrell |first4=Douglas T. |last5=Hotaling |first5=James M. |date=14 October 2017 |title=Revisiting The Relationship between The Ejaculatory Abstinence Period and Semen Characteristics |url=https://pmc.ncbi.nlm.nih.gov/articles/PMC5641453/ |journal=International Journal of Fertility & Sterility |language=en |volume=11 |issue=4 |pages=238 |doi=10.22074/ijfs.2018.5192 |issn=2047-2919 |pmc=5641453 |pmid=29043697}}
:</small>
:for example. [[User:Alpha3031|Alpha3031]] ([[User talk:Alpha3031|t]] • [[Special:Contributions/Alpha3031|c]]) 02:12, 16 December 2024 (UTC)
:Mature sperm cells do not have [[DNA repair]] capability.<sup>[https://onlinelibrary.wiley.com/doi/10.1111/andr.13375]</sup> Inevitably, as sperm cells get older, they will naturally and unavoidably be subject to more and more [[DNA damage (naturally occurring)|DNA damage]]. Obviously, freshly produced spermatozoa will, on average, have less DNA damage. It is reasonable to assume that the expected amount of damage is proportional to the age of the cells, which is consistent with what studies appear to find. Also, obviously, the more the damage is to a spermatozoon fertilizing an oocyte, the larger the likelihood that the [[DNA repair]] in the resulting zygote, which does have DNA repair capability, will be incomplete. The studies I've looked at did not allow me to assess how much this is of practical significance. &nbsp;--[[User talk:Lambiam#top|Lambiam]] 09:40, 16 December 2024 (UTC)


= December 16 =
:Can you be more specific? There are many different kinds of [[binder (material)|binder]] and many different kinds of [[textile]]. [[Water]] is a chemical, and it can be used to dilute many binders, as can many [[solvent]]s.--[[User:Shantavira|Shantavira]]|[[User talk:Shantavira|<sup>feed me</sup>]] 11:54, 15 October 2013 (UTC)


== [[Abelian sandpile model]] ==
:I have a hard time following your Q, but if you're trying to dissolve something, then most things which can be dissolved are water-soluble, oil-soluble, or alcohol-soluble. So, one of those will probably work. [[Peppermint oil]], for example, can dissolve lots of adhesives. If none of those work, then a [[strong acid]] or a [[strong base]] might work. [[User:StuRat|StuRat]] ([[User talk:StuRat|talk]]) 17:38, 15 October 2013 (UTC)


Thanks to those who answered my [[Wikipedia:Reference desk/Archives/Science/2024 November 21#|last question]], I think it should be added to a disambiguation page. If anyone wants to help me write that, reach out.
i am using binder nameing UD BINDER of BASF for textile printing. i have discusses it with many chemist but non of them helped me out.. i had used a lot of acids to decreases its strength but non of them work out even though i had used strong base also but not succeeded but when I add strong base in the paste which is use in printing after 2 days it's make it like rubber but i want some thing like when i add that powder based chemical in that printing paste it become useless.. its strange but i want to make the printing paste totally unworkable and it happens only when binder losses its strength.. so I want powder based chemical which make binder totally use less..


A sandpile seems disorganized and inert, but these are critically self-organizing. Do the frequency and size of disturbances on sand dunes and snowy peaks follow power law distribution?
:It might help if you explained what you are trying to achieve. Why do you want to make the binder useless? Wouldn't that be the same as just not using a binder? '''[[User:Spinningspark|<font style="background:#fafad2;color:#C08000">Spinning</font>]][[User talk:Spinningspark|<font style="color:#4840a0">Spark'''</font>]]''' 22:25, 15 October 2013 (UTC)
[[User:Gongula Spring|Gongula Spring]] ([[User talk:Gongula Spring|talk]]) 01:18, 16 December 2024 (UTC)
:Shouldn't this be at the Math Desk? <span style="font-family: Cambria;"> [[User:Abductive|<span style="color: teal;">'''Abductive'''</span>]] ([[User talk:Abductive|reasoning]])</span> 05:12, 16 December 2024 (UTC)
::If the question is not about the model mentioned in the heading but about the physical properties of sand dunes and snowy peaks, this here is the right section of the Reference desk. &nbsp;--[[User talk:Lambiam#top|Lambiam]] 08:51, 16 December 2024 (UTC)
:::I await a non-mathematical answer. <span style="font-family: Cambria;"> [[User:Abductive|<span style="color: teal;">'''Abductive'''</span>]] ([[User talk:Abductive|reasoning]])</span> 09:23, 16 December 2024 (UTC)
::::It depends is probably a fairly reasonable non-mathematical answer for these kinds of systems. For sand dunes anyway, sometimes avalanche frequency is irregular and the size distribution follows a power law, and sometimes it's close to periodic and the avalanches span the whole system. It seems there are multiple regimes, and these kinds of systems switch between them. [[User:Sean.hoyland|Sean.hoyland]] ([[User talk:Sean.hoyland|talk]]) 09:35, 16 December 2024 (UTC)
:::::Thank you! I'm impressed this seems so casual, but surely you read this somewhere that might have a URL?
:::::[[User:Gongula Spring|Gongula Spring]] ([[User talk:Gongula Spring|talk]]) 22:29, 19 December 2024 (UTC)


:Hi, this is an interesting and somewhat open question! A lot of work is done on these models but much less on careful analyses of real dunes. I did find [https://repository.aust.edu.ng/xmlui/handle/123456789/3758 this dissertation] that is freely accessible and describes some physical experiments and how well they fit various models. The general answer seems to be that the power law models are highly idealized, and determining the degree to which any real system's behavior is predicted by the model ahead of time is very difficult. Update: [https://www.jstor.org/stable/pdf/30062093.pdf This is one of the earlier important works on the topic] and it does include discussion of how well the model fits experiments.[[User:SemanticMantis|SemanticMantis]] ([[User talk:SemanticMantis|talk]]) 17:21, 16 December 2024 (UTC)
::I think the OP must have got some printing paste on his/her clothes, and is trying to find some chemical that will remove it. What I don't know is why he/she is using strong acids and bases, despite the danger of ruining the clothes in question altogether. [[Special:Contributions/24.23.196.85|24.23.196.85]] ([[User talk:24.23.196.85|talk]]) 23:27, 15 October 2013 (UTC)
::That dissertation is great!
::[[User:Gongula Spring|Gongula Spring]] ([[User talk:Gongula Spring|talk]]) 22:30, 19 December 2024 (UTC)


== Thermal radiation ==
== Polar night ==


Are there any common or scientific names for types of polar night? The types that I use are:
I have read the articles on [[Thermal radiation]] and [[Black-body radiation]], and I am still struggling to understand the actual mechanism that causes radiation to be emitted from energetic atoms. The explanation in [[Thermal radiation]] just says:
* ''polar night'' - meaning a day when sun's altitude remains below horizon entire day (there is no daylight at solar noon, only civil twilight), occurring poleward from 67°24′ north or south
<blockquote>These atoms and molecules are composed of charged particles, i.e., protons and electrons, and kinetic interactions among matter particles result in charge-acceleration and dipole-oscillation. This results in the electrodynamic generation of coupled electric and magnetic fields, resulting in the emission of photons, radiating energy away from the body through its surface boundary</blockquote>
* ''civil polar night'' - meaning a day when sun's altitude remains below -6° entire day (there is no civil twilight at solar noon, only nautical twilight), occurring poleward from 72°34′ north or south
I have two conflicting models in my head, from forgotten Physics classes. One or both may be completely incorrect. They are
* ''nautical polar night'' - meaning a day when sun's altitude remains below -12° entire day (there is no nautical twilight at solar noon, only astronomical twilight), occurring poleward from 78°34′ north or south
* If you take a dipole magnet and vibrate it, you will produce an EM wave. If you were able to vibrate it really really really fast, the frequency of that EM wave would be that of visible light, so it would emit visible light. In a warm body, each atom is like a tiny dipole magnet that vibrates, producing EM waves.
* ''astronomical polar night'' - meaning a day when sun's altitude remains below -18° entire day (there is no astronomical twilight at solar noon, only night), occurring poleward from 84°34′ north or south
* In a warm body atoms are colliding with each other, occasionally causing electrons to jump energy levels. When they return, they may emit photons. Thermal radiation is caused by these emitted photons.
Is either explanation close to correct? &mdash; Sam [[Special:Contributions/63.138.152.139|63.138.152.139]] ([[User talk:63.138.152.139|talk]]) 14:08, 15 October 2013 (UTC)


These names were changed on [[Polar night]] article, and I wnat to know whether these named I listed are in use in any scientific papers, or in common language. (And I posted that question here and not in language desk because I think that this is not related to language very tightly.)
:The second statement is basically the quantum mechanical version of the first, but then specialized to electrons. The first picture is a classical picture of vibrating charges, but then if you describe this more precisely using quantum mechanics, each such vibrating charge is an (approximate) harmonic potential and there are then energy levels here too. So, it also emits radiation due to the system falling back to a lower energy level.
--[[User:40bus|40bus]] ([[User talk:40bus|talk]]) 18:56, 16 December 2024 (UTC)


:Some definitions at [https://nwtresearch.com/sites/default/files/the-polar-night.pdf ''The Polar Night'' (1996)] from the [[Aurora Research Institute]]. [[User:Alansplodge|Alansplodge]] ([[User talk:Alansplodge|talk]]) 22:55, 16 December 2024 (UTC)
:The relevant processes are spontaneous emission when making a transition to a lower energy level, excitation when absorbing a photon, and stimulated emission. [[User:Count Iblis|Count Iblis]] ([[User talk:Count Iblis|talk]]) 14:19, 15 October 2013 (UTC)
::These seem to be generalizable as: X polar night is a period, lasting not less than 24 hours, during which the sun remains below the horizon and there is no X twilight. The specific definitions depend then on the specific definitions of [[civil twilight|civil]]/[[nautical twilight|nautical]]/[[astronomical twilight]]. These can be defined with a subjective observational standard or with an (originally experimentally determined) objective standard. &nbsp;--[[User talk:Lambiam#top|Lambiam]] 10:36, 17 December 2024 (UTC)
:::FWIW, I as a former amateur astronomer have never previously thought about the question of ''Polar'' twilight and night nomenclatures, but immediately and completely understood what the (previously unencountered) terms used in the query must mean without having to read the attached descriptions. {The poster formerly known as 87.81.230.195} [[Special:Contributions/94.1.223.204|94.1.223.204]] ([[User talk:94.1.223.204|talk]]) 16:34, 17 December 2024 (UTC)


= December 17 =
::Hmmm, you say the second statement is a QM version of the first, but there seems to be a very critical difference: in my "vibrating magnet" explanation I can make my magnet produce *any* frequency by vibrating it faster or slower. In my QM explanation, my iron magnet could only produce those few precise frequencies defined by the energy differences in the electron shells of iron atoms (the "quantum" of quantum mechanics), right? &mdash; Sam [[Special:Contributions/63.138.152.139|63.138.152.139]] ([[User talk:63.138.152.139|talk]]) 14:35, 15 October 2013 (UTC)
:::If you look more precisely at e.g. the rotation of molecules mentioned by Gandalf below, then there are energy levels there too, but they are so densely packed that it looks like a continuum. Also, you have to take into account the interactions between the different molecules, an N particle system will have energy levels that for large N will be extremely densely packed. So, physically you putting a magnet in your hand and letting it vibrate at seemingly an arbitrary chosen frequency, or an atom emitting a photon are not distinct physical processes. The former involves many more particles and has a far larger number of degrees of freedom, so the emitted photons can have many more possible frequencies. But it is ultimateley the same quantum theory that explains everything (classical mechanics is only an approximation to quantum mechanics; unlike classical mechanics, quantum mechanics is always valid). [[User:Count Iblis|Count Iblis]] ([[User talk:Count Iblis|talk]]) 15:23, 15 October 2013 (UTC)


== differential equations with complex coefficients ==
:Both explanations are (more or less) correct, depending on the wavelength of the radiation. [[Infrared]] radiation and [[microwave]] radiation are caused by vibrations and rotations of molecules. Shorter wavelengths, such as [[visible light]] and [[ultraviolet]] radiation, are caused by transitions of electrons between energy levels within atoms/molecules. There is a table at [[Electromagnetic spectrum#Rationale]]. [[User:Gandalf61|Gandalf61]] ([[User talk:Gandalf61|talk]]) 14:36, 15 October 2013 (UTC)


In an intro ODE class one basically studies the equation <math>\dot x=Ax</math> where x is a real vector and A is a real matrix. A typically has complex eigenvalues, giving a periodic or oscillating solution to the equation. That is very important in physics, which has various sorts of harmonic oscillators everywhere. If A and x are complex instead of real, mathematically the ODE theory works out about the same way. I don't know what happens with PDE's since I haven't really studied them.
::Wow. Thank you for that table -- my jaw just dropped. I had simply no idea that the continuum of the EM spectrum was caused by separate distinct processes, rather than a continuum of one process (like vibrating atom faster and faster). Thanks! &mdash; Sam [[Special:Contributions/63.138.152.139|63.138.152.139]] ([[User talk:63.138.152.139|talk]]) 14:41, 15 October 2013 (UTC)


My question is whether the complex case is important in physics the way the real case is. Can one arrive at it through straightforward coordinate transformations? Do the complex eigenvalues "output" from one equation find their way into the "input" of some other equation? Does the distance metric matter? I.e. in math and old-fashioned physics we use the Euclidean metric, but in realtivity one uses the Minkowski metric, so I'm wondering if that leads to complex numbers. This is all motivated partly by wondering where all the complex numbers in quantum mechanics come from. Thanks. [[Special:Contributions/2601:644:8581:75B0:0:0:0:DA2D|2601:644:8581:75B0:0:0:0:DA2D]] ([[User talk:2601:644:8581:75B0:0:0:0:DA2D|talk]]) 22:54, 17 December 2024 (UTC)
Follow-up question, after seeing the [[Electromagnetic spectrum#Rationale|table]] that [[User:Gandalf61|Gandalf61]] linked to. (please excuse me: my brain is trying to crush together two mental models that have always happily lived in separate bins and now need to be entangled together):


:Perhaps I don't understand what you are getting at but simple harmonic motion is xdot=j*w*x where w is angular frequency and j is i [[User:Greglocock|Greglocock]] ([[User talk:Greglocock|talk]]) 00:35, 18 December 2024 (UTC)
For the "vibrating dipole" model, my physics teacher always likened it to a whip: if your bar magnet is sitting on a table, there is a magnetic field line coming straight out of the North pole. Move the magnet and that field line shifts, but the displacement moves away from the magnet like a wave down a whip, traveling at the speed of light. Vibrate it back and forth and you get an EM sine wave. This was my model for thermal radiation, and a key point of this is that the wave has an amplitude in *physical space*, and that amplitude is the displacement of the magnet (or atomic dipole). That is, in magical-theoretical-world, if you put out metal filings and viewed the magnetic field lines like kids do in school, and your filings were absolutely weightless and frictionless etc etc., wiggling the magnet side to side would produce a sine wave of filings that you could even photograph (ignoring the speed of light).
:If PDEs count, the [[Schrödinger equation]] and the [[Dirac equation]] are examples of differential equations in the complex domain. A linear differential equation of the form <math>\dot x=Ax</math> on the complex vector space <math>\mathbb{C}^n</math> can be turned into one on the real vector space <math>\mathbb{R}^{2n}</math>. For a very simple example, using <math>n=1,</math> the equation <math>\begin{bmatrix}\dot z\end{bmatrix} = \begin{bmatrix}i\end{bmatrix}\begin{bmatrix}z\end{bmatrix}</math> can be replaced by
::<math>\begin{bmatrix}\dot x\\\dot y\end{bmatrix} = \begin{bmatrix}0&-1\\1&0\end{bmatrix}\begin{bmatrix}x\\y\end{bmatrix}.</math>
:&nbsp;--[[User talk:Lambiam#top|Lambiam]] 01:11, 18 December 2024 (UTC)
:::Shouldn't this be at the Math Desk? It almost seems like the IP could be trolling, given the same question just above. <span style="font-family: Cambria;"> [[User:Abductive|<span style="color: teal;">'''Abductive'''</span>]] ([[User talk:Abductive|reasoning]])</span> 14:49, 18 December 2024 (UTC)
::::The question whether the complex case is important <u>in physics</u> the way the real case is, is not a maths issue. IMO the Science section is the best choice. I do not see another post that asks the same or even a related question. &nbsp;--[[User talk:Lambiam#top|Lambiam]] 21:51, 18 December 2024 (UTC)
:::::Just as above, I await a non-mathematical answer to this question. <span style="font-family: Cambria;"> [[User:Abductive|<span style="color: teal;">'''Abductive'''</span>]] ([[User talk:Abductive|reasoning]])</span> 07:01, 19 December 2024 (UTC)


Thanks all. Greglocock, your SHO example is 1-dimensional but of course you can have a periodic oscillator (such as a planetary orbit) in any orientation in space, you can have damped or forced harmonic oscillators, etc. Those are all described by the same matrix equation. The periodic case means that the matrix eigenvalues are purely imaginary. The damped and forced cases are where there is a real part that is negative or positive respectively. Abductive, of course plenty of science questions (say about how to calculate an electron's trajectory using Maxwell's equations) will have mathematical answers, and the science desk is clearly still the right place for them, as they are things you would study in science class rather than math class. Lambiam, thanks, yes, PDE's are fine, and of course quantum mechanics uses complex PDE's. What I was hoping to see was a situation where you start out with real-valued DEs in some complicated system, and then through some coupling or something, you end up with complex-valued DEs due to real matrices having complex eigenvalues. Also I think the Minkowski metric can be treated like the Euclidean one where the time coordinate is imaginary. But I don't know how this really works, and Wikipedia's articles about such topics always make me first want to go learn more math (Lie algebras in this case). Maybe someday. [[Special:Contributions/2601:644:8581:75B0:0:0:0:DA2D|2601:644:8581:75B0:0:0:0:DA2D]] ([[User talk:2601:644:8581:75B0:0:0:0:DA2D|talk]]) 07:25, 19 December 2024 (UTC)
In the QM model, an electron drops to an lower energy level and the energy is lost to a photon that is emitted with a specific frequency based on its energy. But this "frequency" has always seemed to me to be almost metaphorical -- the photon is a packet of energy with an associated wavelength, but it's not like a sine wave wiggling through space with an actual physical amplitude.


= December 18 =
Now I find that both models are kind-of correct for different frequencies. Are both photons of exactly the same "kind"? Is the vibrating magnet actually producing a sine wave with an amplitude in physical space? How about the photon emitted by the electron? The two explanations seem so different, yet it seems they both produce the exact same thing. &mdash; Sam [[Special:Contributions/63.138.152.139|63.138.152.139]] ([[User talk:63.138.152.139|talk]]) 15:06, 15 October 2013 (UTC)


== Why don't all mast radiators have top hats? ==
:You need to note a couple of things. Firstly, merely vibrating a magnet DOES NOT produce electromagnetic radiation. If you mechanically rotate a bar magnet, you will get a rotating magnetic field, that is all, no matter how fast or slow you rotate or move it. To get EM radiation, you must have both a varying magnetic field AND a similarly varying electric field in the proper phase relationship. This is easily demonstrated as it is easy to produce very intense varying magnetic fields by passing large varying currents through a wire coil. However, by other means you can produce radio waves that embody significant energy yet the magnetic filed component may be quite small compared to that produced by a current in a coil.
:Secondly, yes a warm body DOES radiate EM radiation (with a continuous spectrum albiet peaked at a given frequency). However, this does not require, and mostly does not involve, collisions between atoms or molecules (or collisions between any sort of particle. Collisions cannot occur in a solid or in a pure crystal. But all non-trasparent substances radiate. For instance, carbon, a solid, is a near perfect black body radiator at all temperatures in which it can exist as a solid, including up to the sublimation point, ~3900K, at which it will glow yellowish-white.
:Collisions are relevant when considering gasses. Collisions transfer energy from one molecule to another, by the impact changing the translational and rotational velocity of the molecules concerned. Atoms and molecules must distribute their energy between translation, rotation, and electron orbital configuration. Only the spontaeous changes in orbital configuration contribute to black body radiation. The division of energy between translation & rotation, and electron orbitals, is governed by the emission laws.
:[Special:Contributions/121.215.39.252|121.215.39.252]] ([[User talk:121.215.39.252|talk]]) 15:12, 15 October 2013 (UTC)


[[Image:Hamersley radio mast closeup 2.jpg|thumb|right]]Our [[mast radiator]] article describes a device called a "top hat" which increases the range for mast radiators that can't be built tall enough.
::If you vibrate a magnet you will have a time dependent magnetic field and hence an electric field. [[User:Count Iblis|Count Iblis]] ([[User talk:Count Iblis|talk]]) 15:26, 15 October 2013 (UTC)
:::So, please Count Iblis, explain then why a radio transmitter needs an antenna, and does not radiate significant energy from its tank coil. After all, considerable energy goes into the tank coil, every half cycle of the carrier frequency, far more (typically 10 to several hundred times) than what leaves the antenna into space. That energy does not leave the coil by going off as EM radiation, it gets passed back and forth to and from that tank capacitor. And as I alluded to ealier, the magnetic component of the EM leaving the antenna my be considerably weaker than the magnetic field near the tank coil. Do not be confused by the fact that any time-varying magnetic field will induce a voltage in nearby conductors, and the electric field thereby created may result in some EM radiation as a secondary effect.
:::Lastly, consider this: A sinusoidaly varying current in an ideal coil absorbs no energy (as does a sinusoidal current in a capacitor) as the current is 90 degrees out of phase with the voltage. However, EM radiation contains/carries energy, lost to space, which is why an antenna presents an electrical resistance at its terminals (practical antennas may display reactance as well, but resiatnce is always present). Since an ideal coil, which of course does produce a sinusoidal magnetic field, absorbs no energy, there can be no EM radiation. Vibrating a magnet, and any other rythmic mechnical thing you can do to a magnet is not essentially diffrent to driving a periodic current through a coil. In vibrating a mass, you exchange kinetic energy between the mass and the driving device, twice each cycle. In vibrating a magnet in free space, some of the energy gets stored twice each cycle in the magnetic field but it always returns to the driving device, also twice each cycle.[[Special:Contributions/121.215.39.252|121.215.39.252]] ([[User talk:121.215.39.252|talk]]) 15:45, 15 October 2013 (UTC)
::::Let's stick to one well defined example, let's consider the vibrating magnet modeled as an exact dipole magnet and work out this example from first principles in full detail. Here you can't a priori assume that a freely vibrating magnet will execute an exact harmonic motion and will therefore not radiate any energy, as you would then assume what you want to prove. An outline of this is is as follows. What you need to do is solve the Maxwell equations (taking e.g. the case of a frced harmonic motion of the magnet) which leads to an expression for the electromagnetic fields which are given in terms of the retarded potential, so the magnet at position r' and time t contributes to the field at position r at time t + |r-r'|/c, this time lag is going to lead to an 1/r contribution to the asymptotic behavior of the fields. If you ignore this time lag, then there is no 1/r behavior. Then the energy flux is proportional to the square of the fields which behaves as 1/r^2, therefore energy will leak away to infinity (the energy flux through a sphere of radius r is the proportional to r^2*1/r^2 = 1, so this stays finite in the r to infinity limit).
::::Another way to approach this, which is however not so practical for calculations, is to consider the problem of the self-force in electromagentism. If you consider the freely oscillating magnet, then it will oscillate according to a damped harmonic oscilator. But where does the damping force come from? This is, of course due to the emitted radiation, but the source of that is the magnet itself. How to properly deal with this was [http://arxiv.org/abs/0905.2391 only solved recently]. [[User:Count Iblis|Count Iblis]] ([[User talk:Count Iblis|talk]]) 17:56, 15 October 2013 (UTC)
:::::Count Iblis, you cannot just ignore a logical argument and go off somewhere else in gibber-land. You need to show why my discussion above is wrong - and you haven't done that, because I have merely recited facts well known to graduates in electrical and electronic engineering world-wide. There is no difference between a magnetic field established by a current carrying coil (or a straight conductor for that matter) and a magnetic field established by a simple dipole magnet. In free space, an ideal coil or conductor absorbs no energy, and no EM radiation occurs. (In practice, of course, while we can have superconductors, we cannot have completely free space. There is always other (imperfect) conductors somewhere with closed loops. Current will be induced in the closed loops, setting up their own varying magnetic fields, which will do the same to the originating coil. By Lenz's Law (for which the proof is the impossible existence of perpetual motion machines) the induced voltage in the originating coil will always be in a direction/phase that will oppose the originating current, thus synthesising an electrical resistance.) I discussed sinusoidal exitation above to simplify it for the OP, however my argument does apply to any varying exitation, as any engineer will know (think in s-plane). [[Special:Contributions/120.145.145.144|120.145.145.144]] ([[User talk:120.145.145.144|talk]]) 00:41, 16 October 2013 (UTC)
::::::Those text books will ignore the effects leading to radiation being emitted, but they will only tell that much later when they actually treat the subject of electromagnetic radiation, because they have not yet introduced the complete Maxwell equations before that.
::::::Thing is that even an uncharged conducting metal sphere rotating in a perfect vacuum will emit electromagnetic radiation and slow down as a result of that. But this is due to quantum electrodynamical effects. [[User:Count Iblis|Count Iblis]] ([[User talk:Count Iblis|talk]]) 01:21, 16 October 2013 (UTC)
:::::::I'll take that as your subtle admission, Count Iblis, that any such EM radiation, if it in fact occurs, coming from a vibrating magnet or a wire/coil carrying a perioic current, is negligible. It has to be, or said textbooks, including what electrical/electronic undergrads have to study on Maxwells' equations (we got Maxwell in 3rd year of a 4-year course), would not have ignored it. Nor could practicing engineers get away with ignoring any such effects, which they universally do. Nor could they ignore it in the design/engineering of mechanical filter resonators, many of which achieve extremely high Q-factors (20,000 and better, which means the knietic energy is >20,000 times what is lost each cycle), well beyond what is practical in LC resonating circuits. They are carefully sized pieces of vibrating metal. And it is something that can be ignored with respect to the OP's questions too. His teacher was wrong; vibrating dipoles are not the source of black body radiation - electron orbital drops are. [[Special:Contributions/120.145.145.144|120.145.145.144]] ([[User talk:120.145.145.144|talk]]) 05:40, 16 October 2013 (UTC)
::::::::Infrared and microwave radiation is emitted and absorbed by changes in rotational and vibrational modes of [[Electric dipole moment|polar]] molecules - see our articles [[infrared spectroscopy]], [[vibronic spectroscopy]], [[rotational spectroscopy]] and [[rotational-vibrational spectroscopy]]. [[User:Gandalf61|Gandalf61]] ([[User talk:Gandalf61|talk]]) 08:13, 16 October 2013 (UTC)
:::::::::True, but that is not black body radiation, and each applies to specific phases - eg the last 2 you mentioned apply only to the gas phase. The radiation and absorbance in these cases does not conform to the black body emission laws, and black body radiation applies to solids and liquids, and in theory, to gasses. In fact, the known atomic structure is not even required to derive the ideal black body emission curve. [[Special:Contributions/120.145.145.144|120.145.145.144]] ([[User talk:120.145.145.144|talk]]) 12:28, 16 October 2013 (UTC)
::::::::::The OP asked about the "actual mechanism that causes radiation to be emitted from energetic atoms". The black body model is a theoretical abstraction based on thermodynamic principles. It does not posit a particular emission mechanism, and so it is something of a red herring in answering the OP's question. The OP's teacher was not wrong, although they may have given an oversimplified explanation. [[User:Gandalf61|Gandalf61]] ([[User talk:Gandalf61|talk]]) 13:03, 16 October 2013 (UTC)
:::::::::::The OP was specifically asking about black body radiation - his/her first sentence is ''I have read the articles on Thermal radiation and Black-body radiation''. And later in his/her question, he/she uses the terms "warm body" and "thermal radiation". So all this nonsense about dipoles and electric fields created by vibrating magnets is a side track. If we are talking about factors affecting the thermodynamic efficiency of gasoline engines, do we concern ourselves about oil drawn past the pistons, just because its calorific value has a tiny tiny theoretical impact? Yes, black body theory itself does not posit a particular emission mechanism - I said that myself. But that only means bodies must radiate with a tell-tale ''continuous'' spectrum (the other forms of radiation you mentioned have quite different ''discrete'' spectra) - we still need to understand what the actual mechanism is. The OP's teacher was wrong, and wrong in the same sense that you and I would be wrong by saying the energy of a gasoline engine comes from the lube oil burnt. Only more so. [[Special:Contributions/124.178.48.59|124.178.48.59]] ([[User talk:124.178.48.59|talk]]) 14:34, 16 October 2013 (UTC)


So, why would you bother building a mast radiator without a top hat? Couldn't you just build it shorter with the top hat, and save steel? [[User:Marnanel|Marnanel]] ([[User talk:Marnanel|talk]]) 15:00, 18 December 2024 (UTC)
== Surgical Caps and Shoe Covers ==


:The main source cited in our article states, "{{tq|Top loading is less desirable than increased tower height but is useful where towers must be electrically short due to either extremely low carrier frequencies or to aeronautical limitations. Top loading increases the base resistance and lowers the capacitive base reactance, thus reducing the ''Q'' and improving the bandwidth of towers less than 90° high.}}"<sup>[https://books.google.com/books?id=V8Lk2ghPl7IC&pg=PA717&dq=%22Top+loading+is+less+desirable+than+increased+tower+height%22&hl=en]</sup> If "reducing the {{serif|''Q''}}" is an undesirable effect, this is a trade-off design issue in which height seems to be favoured if circumstances permit. &nbsp;--[[User talk:Lambiam#top|Lambiam]] 21:41, 18 December 2024 (UTC)
Hello. How do you visually distinguish between surgical caps and shoe covers? They look very similar. Thanks in advance. --[[User:Mayfare|Mayfare]] ([[User talk:Mayfare|talk]]) 16:13, 15 October 2013 (UTC)
:Er, well, I'm not sure how to answer this. If you were physically presented with them, the difference would be obvious. If you're looking at a photo, it's hard to come up with solid criteria, because shoe covers are often crumpled and folded in a way that makes their shape hard to recognize. Basically hair covers are round, about a foot in diameter, and relatively thin; shoe covers are foot-shaped with the opening on one end, and pretty robustly constructed. [[User:Looie496|Looie496]] ([[User talk:Looie496|talk]]) 16:44, 15 October 2013 (UTC)


== Name of our solar system ==
:It may depend on which part of the world you are living in (you don't give your county of origin) but I would say that visually 'shoe covers' are just large enough to encapsulate the foot and 'caps' are larger enough to cover the head, hair (and [[Tin foil hat]]s for those quacks that feel they need ware need them). --[[User:Aspro|Aspro]] ([[User talk:Aspro|talk]]) 16:52, 15 October 2013 (UTC)


Is our star system officially called "Sol", or is that just something that came from science fiction and then became ubiquitous? [[Special:Contributions/146.90.140.99|146.90.140.99]] ([[User talk:146.90.140.99|talk]]) 22:06, 18 December 2024 (UTC)
::Head covers and shoe covers are generic medical supplies, used in vast quantities (along with gloves, masks, and gowns), and I think they're probably the same shape all over the world. In the veterinary facilities where I've worked, the most obvious difference was that the shoe covers were bright blue and the head covers were white. [[User:Looie496|Looie496]] ([[User talk:Looie496|talk]]) 17:04, 15 October 2013 (UTC)
:It's called the [[Solar System]], and its star is called Sol, from Latin via French. Hence terms like "solstice", which means "sun stands still" in its apparent annual "sine wave" shaped path through the sky. ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 23:31, 18 December 2024 (UTC)
:::Via French? According to the OED, it came direct from Latin.<sup>[https://archive.org/details/in.ernet.dli.2015.271834/page/n1182/mode/1up]</sup> &nbsp;--[[User talk:Lambiam#top|Lambiam]] 11:45, 19 December 2024 (UTC)}}
::::Old French plus Latin.[https://www.etymonline.com/search?q=sol] ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 14:25, 19 December 2024 (UTC)
:::::Also in Old French, the word meaning "sun" was ''[[wikt:soleil#Old French|soleil]]''. &nbsp;--[[User talk:Lambiam#top|Lambiam]] 23:42, 19 December 2024 (UTC)
::Let's say {{fact}} to that claim. The star is indeed called Sol if you're speaking Latin, but in English it's the Sun (or sun). Of course words like "solar" and "solstice" derive from the Latin name, but using "Sol" to mean "the Sun" does seem to be something from science fiction. --[[Special:Contributions/142.112.149.206|142.112.149.206]] ([[User talk:142.112.149.206|talk]]) 06:04, 19 December 2024 (UTC)
:::"Sol" is occasionally used to mean the Sun by astronomers. I feel like it is used in contexts where it is necessary to distinguish our experience with the Sun here on Earth, such as sunsets, from more "sterile" aspects of the Sun one might experience off the Earth. <span style="font-family: Cambria;"> [[User:Abductive|<span style="color: teal;">'''Abductive'''</span>]] ([[User talk:Abductive|reasoning]])</span> 08:56, 19 December 2024 (UTC)
::::Being an astronomer myself, I don't think I've ever heard anyone use "Sol" outside of a science fiction context. --[[User:Wrongfilter|Wrongfilter]] ([[User talk:Wrongfilter|talk]]) 09:06, 19 December 2024 (UTC)
::::::Scientific articles that use the term Sol; [https://www.sciencedirect.com/science/article/pii/S0094576522005598 Development of the HeliosX mission analysis code for advanced ICF space propulsion] and [https://arxiv.org/pdf/2309.07061 Swarming Proxima Centauri: Optical Communication Over Interstellar Distances]. These are rather speculative but as I mentioned, the usage is for off-planet situations. <span style="font-family: Cambria;"> [[User:Abductive|<span style="color: teal;">'''Abductive'''</span>]] ([[User talk:Abductive|reasoning]])</span> 13:05, 19 December 2024 (UTC)
:::::Using Sol, Terra and Luna to refer to the Sun, Earth and Moon only happens if you write your entire article in Latin and in science fiction, not in regular science articles. They are capitalised though. Just as people write about a galaxy (one of many) or the Galaxy (the Milky Way Galaxy, that's our galaxy). The Solar System is also capitalised. [[User:PiusImpavidus|PiusImpavidus]] ([[User talk:PiusImpavidus|talk]]) 10:38, 19 December 2024 (UTC)
::::::The article says "Sol" is the "personification" of the sun. Google Image the term "old Sol" and you'll see plenty of images of the sun with a face, not just Sci-Fi stuff. And "Luna" is obviously the basis for a number of words not connected with Sci-Fi. Lunar orbit, lunar module, etc. And the term "terra firma" has often been used in everyday usage. ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 11:34, 19 December 2024 (UTC)
::::::: And yet, if you ask 1,000 people "What's that big yellow thing up in the sky called?", you'll get 1,000 "the Sun"s and zero "Sol"s. Yes, in specialised contexts, Sol is used; but that doesn't justify saying our solar system's star "is called Sol" without any qualification, as if that were the normal, default term. It's not. -- [[User:JackofOz|<span style="font-family: Papyrus;">Jack of Oz</span>]] [[User talk:JackofOz#top|<span style="font-size:85%; font-family: Verdana;"><sup>[pleasantries]</sup></span>]] 12:16, 19 December 2024 (UTC)
:::::::::And after you've gotten that response, ask them why it isn't the "Sunner System". And why a sun room attached to a house isn't called a "sunarium". And why those energy-gathering plates on some roofs are not called "sunner panels". ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 14:22, 19 December 2024 (UTC)
::::::::::What does that have to do with anything? The question was 'Is our star system ''officially'' called "Sol"?' (my emphasis). The answer is it is not. And that does not preclude other terms being derived from Latin ''sol'' (or, often enough, from Greek ''helios''), nobody denies that, it is irrelevant to the question. --[[User:Wrongfilter|Wrongfilter]] ([[User talk:Wrongfilter|talk]]) 14:52, 19 December 2024 (UTC)
:::::::::::The problem is that the OP's question contains false premises. One is the question of what the "official" name is. There is no "official" name. It's the "conventional" name. And the second part, claiming that "Sol" comes from Sci-fi, is demonstrably false. ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 15:05, 19 December 2024 (UTC)
::::::::::::Then demonstrate (that the usage of "Sol" as a name for the Sun, in English, not its use to derive adjectives, originated outside of SF), with references. The original question does not even include any premises, with maybe the exception of "ubiquitous". --[[User:Wrongfilter|Wrongfilter]] ([[User talk:Wrongfilter|talk]]) 15:18, 19 December 2024 (UTC)
:::::::::::::"Is our star system officially called "Sol" [answer: NO], or is that just something that came from science fiction [answer: NO] and then became ubiquitous? [whatever that means]". And the wording of your own question, just above, does not make sense. ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 15:24, 19 December 2024 (UTC)
::::::::::::::Looking at Newspapers.com (pay site), I'm seeing colloquial references to "old Sol" (meaning the sun) as far back as the 1820s. No hint of sci-fi derivation. ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 15:32, 19 December 2024 (UTC)
:::::::::::::::Great! Well done. --[[User:Wrongfilter|Wrongfilter]] ([[User talk:Wrongfilter|talk]]) 15:41, 19 December 2024 (UTC)
::::::::::::::::Feel free to box up this section. ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 15:52, 19 December 2024 (UTC)
:::::::::::::The 1933 OED entry for ''Sol'', linked to above, gives several pre-SF uses, the earliest from 1450. &nbsp;--[[User talk:Lambiam#top|Lambiam]] 23:48, 19 December 2024 (UTC)
::::::::::::::Yes, of course, but that's not surprising, is it? 15th century humanists, astrologers and pre-Victorian poets liked to sprinkle their texts with Latin words. But I don't think this is what the question is about. It's a matter of context, but it should be up to OP to clarify that. --[[User:Wrongfilter|Wrongfilter]] ([[User talk:Wrongfilter|talk]]) 08:48, 20 December 2024 (UTC)
:::::::::::::::It's not surprising, but the discussion was not whether the use of ''Sol'' in English texts is surprising, but whether it originated outside of SF. &nbsp;--[[User talk:Lambiam#top|Lambiam]] 10:52, 20 December 2024 (UTC)
::::::::::::::::In my view, the question has a clear scifi bent, and that particular usage ("Where shall we go for our vacation? Alpha Centauri or Sol?") does not originate in the 15th century. The word is much older, of course it is, but the usage is not. In the 15th century people didn't even know that the Sun is just an ordinary star and could do with a particular name to distinguish it from the others. The connotations of ''sol'' were vastly different from what they are today and from what is implied in OP's question. Incidentally, the [[International Astronomical Union|IAU]] doesn't even define a name [https://www.iau.org/public/themes/naming/], although they recommend using capitalised "Sun". Certainly no "Sol" anywhere. --[[User:Wrongfilter|Wrongfilter]] ([[User talk:Wrongfilter|talk]]) 12:04, 20 December 2024 (UTC)
::::::::{{small|Does that make it a Sol-ecism? [[User:Clarityfiend|Clarityfiend]] ([[User talk:Clarityfiend|talk]]) 12:19, 19 December 2024 (UTC)}}
:::::::::<small>More like a [[solipsism|Sol-ips-ism]]. Meaning a factory where suns are made. From Sol = sun, and ipso = facto. Thus endeth the entymogology lesson for today. Go in peace to love and serve whomsoever. -- [[User:JackofOz|<span style="font-family: Papyrus;">Jack of Oz</span>]] [[User talk:JackofOz#top|<span style="font-size:85%; font-family: Verdana;"><sup>[pleasantries]</sup></span>]] 19:37, 19 December 2024 (UTC) </small>


== Mountains ==
:If you do a Google Image search for both items you will see there are big differences between the two. The shape to begin with, round for the head and narrow for shoes.[https://www.google.ca/search?q=surgical+cap&espv=210&es_sm=122&um=1&ie=UTF-8&hl=en&tbm=isch&source=og&sa=N&tab=wi&ei=dHNdUsD_POHhygHqs4HQAw#es_sm=122&espv=210&hl=en&q=surgical+shoe+cover&tbm=isch&um=1 Shoe Cover][https://www.google.ca/search?q=surgical+cap&espv=210&es_sm=122&um=1&ie=UTF-8&hl=en&tbm=isch&source=og&sa=N&tab=wi&ei=dHNdUsD_POHhygHqs4HQAw Surgical Cap]Hope this helps! [[User:Mrfrobinson|Mike]] ([[User talk:Mrfrobinson|talk]]) 16:57, 15 October 2013 (UTC)


Why there are no mountains on Earth with a height above 10,000 m? As the death zone is about at 8,000 m, and above 19,000 m, there is an Armstrong limit, where water boils at normal human body temperature, it is good that there are no more mountains higher than 8,000 km than just 14, but if there were hundreds of mountains above 9,000 m, then these were bad to climb. If there were different limits for death zone and Armstrong limit, would then there be possible to have higher mountains? I have just thought that, it is not a homework? --[[User:40bus|40bus]] ([[User talk:40bus|talk]]) 22:29, 18 December 2024 (UTC)
:As a practical issue, there's no need to distinguish between them, as they come in labelled boxes. - <span style="font-family: cursive">[[User:Nunh-huh|Nunh-huh]]</span> 02:39, 16 October 2013 (UTC)


:There are [[List of tallest mountains in the Solar System|mountains elsewhere in the solar system]] that are over 20km high. Given that some of those are on airless worlds, I don't think the air pressure has any bearing on it. [[Special:Contributions/146.90.140.99|146.90.140.99]] ([[User talk:146.90.140.99|talk]]) 22:57, 18 December 2024 (UTC)
== Domestic waste solder ==


:Multiple sources from web searching suggest the ''theoretical'' maximum height for mountains on Earth is around 15,000 m – the limiting factor is [[Isostasy]]; the higher (therefore more voluminous) a mountain is, the more its weight causes the crust beneath it to sink. The actual heights of mountains are a trade-off between how fast tectonic movements can raise them versus isostatic sinking ''and'' how quickly they are eroded, and tectonic movements do not last for ever. See also [[Orogeny]]. {The poster formerly known as 87.81.230.195} [[Special:Contributions/94.1.223.204|94.1.223.204]] ([[User talk:94.1.223.204|talk]]) 00:25, 19 December 2024 (UTC)
I have a handful of bits of solder, mostly crap sucked up with my desoldering tool and bits that ran off during tinning my soldering iron. I live in Edinburgh, Scotland. Should I make an effort to dispose of this in a special way or is that just for commercial enterprises producing large quantities of waste? --[[Special:Contributions/2.97.26.56|2.97.26.56]] ([[User talk:2.97.26.56|talk]]) 20:12, 15 October 2013 (UTC)
::And erosion goes faster as the mountain gets higher, in particular when it's high enough to support glaciers – one reason why mountains can get higher on an airless world. Now it gets interesting for a mountain high enough to reach into the stratosphere, as it would be too dry to have anything but bare rock. I suppose it would locally raise the tropopause, preventing that. [[User:PiusImpavidus|PiusImpavidus]] ([[User talk:PiusImpavidus|talk]]) 11:13, 19 December 2024 (UTC)


= December 19 =
:Around here, (in California, in the United States), you would get in touch with your local county's [http://www.sccgov.org/sites/iwm/hhw/Pages/hhw.aspx Household Hazardous Waste] program and determine the best way to dispose of those types of materials. If you're actually ''in'' Edinburgh, here's the website for [http://www.edinburgh.gov.uk/info/1063/rubbish-household_waste/452/household_rubbish_collection your city government waste service]. [[User:Nimur|Nimur]] ([[User talk:Nimur|talk]]) 20:39, 15 October 2013 (UTC)


== Does human DNA become weaker with each generation? ==
: It's [[Waste Electrical and Electronic Equipment Directive|WEEE]], something that ideally you wouldn't put in the landfill waste stream. They do accept WEEE at [http://www.edinburgh.gov.uk/info/1055/recycling/433/community_recycling_centres Edinburgh's community recycling centres] (it goes in the [http://www.edinburgh.gov.uk/info/1055/recycling/433/community_recycling_centres/2 "small electrical"]). But obviously a wee freezer bag full of WEEE (ahem) isn't worth driving out to e.g. Sighthill. Personally I keep a ziploc freezer bags of the little nasty stuff that they don't collect at the kerb (batteries, CF bulbs, WEEE, paint, etc.) and take it to the recycling place only when I'm taking something large. -- [[User:Finlay McWalter|Finlay McWalter]]'''ჷ'''[[User talk:Finlay McWalter|Talk]] 20:40, 15 October 2013 (UTC)


As with photocopying something over and over, the text becomes less clear each time.
::Okay, thanks. I'll hold onto it until my next visit to the recycling centre. [[Special:Contributions/2.97.26.56|2.97.26.56]] ([[User talk:2.97.26.56|talk]]) 21:22, 15 October 2013 (UTC)


Does human DNA become weaker with each generation? [[User:HarryOrange|HarryOrange]] ([[User talk:HarryOrange|talk]]) 21:22, 19 December 2024 (UTC)
:By the way, you should no longer be using lead containing solder unless it is for maintenance of equipment that predates the [[ROHS]] directive. '''[[User:Spinningspark|<font style="background:#fafad2;color:#C08000">Spinning</font>]][[User talk:Spinningspark|<font style="color:#4840a0">Spark'''</font>]]''' 22:17, 15 October 2013 (UTC)
:Sure, DNA replication is not perfect, although [[Proofreading (Biology)|proofreading]] reduces the error rate to about 1 mistake per 10<sup>9</sup> nucleotides (see our article on [[DNA Replication#DNA Polymerase|DNA Replication]]). But that is per generation of cells, not of the whole organisms. Many mutations will be neutral in effect (because much of our DNA is redundant), some will be deleterious, and a few might be advantageous. It is the process of natural selection that hinders the spread of deleterious mutations: sometimes this aspect is called [[Negative selection (natural selection)|purifying selection]]. One thus usually expects a stable [[mutation–selection balance]] over time rather than that "DNA becomes weaker with each generation". Medical science is reducing the selection pressure against some mutations, which consequently may become more common. One of the problems for asexual organisms is referred to as [[Muller's ratchet]]; assuming that reverse mutations are rare, each generation has at least the mutational load of its predecessor. In contrast, in sexual organisms [[genetic recombination]] generates the variation that, combined with selection, can repair the situation. Sexual organisms consequently have a lighter genetic load. [[User:Jmchutchinson|JMCHutchinson]] ([[User talk:Jmchutchinson|talk]]) 22:42, 19 December 2024 (UTC)
::So [[Negative selection (natural selection)|purifying selection]] won't work properly in case of [[Inbreeding]] ? [[User:HarryOrange|HarryOrange]] ([[User talk:HarryOrange|talk]]) 23:16, 19 December 2024 (UTC)
:::The larger the degree of inbreeding, the larger the chance that deleterious traits are expressed. But this very expression of traits leading to decreased biological fitness of their bearers is what actually enables purifying selection in the longer term. &nbsp;--[[User talk:Lambiam#top|Lambiam]] 23:36, 19 December 2024 (UTC)
::::@[[User:Lambiam|Lambiam]] so [[DNA repair]] won't stop these deleterious traits to get expressed? [[User:HarryOrange|HarryOrange]] ([[User talk:HarryOrange|talk]]) 14:11, 20 December 2024 (UTC)
:::::No, this is not an issue of [[DNA damage|damage to the DNA]]. The genes involved are faithfully reproduced and passed on from generation to generation. &nbsp;--[[User talk:Lambiam#top|Lambiam]] 15:53, 20 December 2024 (UTC)
:Or stronger e.g. "[https://www.biorxiv.org/content/10.1101/2024.09.09.611499v1.full.pdf ...we found that genes specifically duplicated in the Greenland shark form a functionally connected network enriched for DNA repair function]", and those guys live for centuries and have much more DNA than us. [[User:Sean.hoyland|Sean.hoyland]] ([[User talk:Sean.hoyland|talk]]) 15:21, 20 December 2024 (UTC)
::@[[User:Lambiam|Lambiam]] If not due to DNA damage, why do babies from inbreeding appear like DNA-damaged species? [[User:HarryOrange|HarryOrange]] ([[User talk:HarryOrange|talk]]) 17:29, 20 December 2024 (UTC)
:::Inbred offspring of species that normally outcross may show abnormalities because they are more likely than outcrossed offspring to be [[Zygosity|homozygous]] for [[Dominance (genetics)|recessive alleles]] that are deleterious. In individuals that are heterozygous at these loci, the recessive alleles will not be expressed (because the other wild-type dominant allele is sufficient to do their job adequately). See our article on [[inbreeding depression]]. [[User:Jmchutchinson|JMCHutchinson]] ([[User talk:Jmchutchinson|talk]]) 19:26, 20 December 2024 (UTC)


== Larvae going south ==
::While it may come in scope of local regulations, I would not be concerned about a mere handfull. You need to keep things in perspective and understand the partly political motivation for the European Lead-Free Directive. Lead is ubiquitous in the environment. Those that frame laws and regulations seem not to understand how and why. Lead was used in all manner of things, including paint. That contributes to lead dust everywhere. Another source is the used of lead sheathing in power and telephone cables for about 80 years, until satisfactory plastic sheaths were developed in the 1970's. I was involved in the installation and testing of lead sheathed cables in the 1960's and 1970's. The sheath was about 3 mm thick and the cable pressurised with air, so as to enable detection of sheath damage and keep out moisture. Those cables still in use or just abandonned and left in the ground (which is most of them) have become porous, constantly leaking air. In many cases the lead has, over the intervening 40 to 80 years, become paper-thin. Where has the lead gone? Leached into the soil generally of course - where it can be further distributed whenever someone disturbs the soil for building construction or whatever. Authorities became concerned about the lead levels in the blood of childen 30 or so years ago. They thought that lead in gasoline was the problem, so various countries around the World banned lead in gasoline. That improved things a bit in the USA because of their high population densities, considerable use of private cars, and low use of diesel engines in busses and light trucks. But Australia and Europe, which have always used diesel engines in any sort of truck, didn't see much change in blood levels. So Europe decided to ban the use of lead altogether - at least that will mean lead levels don't get any worse, and help countries like Australia where some of the environmental contamination comes from dust released in the mining, processing, and transport of lead.
::In any case, the lead in solder is pretty much trapped with the tin and rendered harmless. There has never been much concern about electronics technicians and electronics factory staff being affected by lead from solder - though it has always been standard to caution workers to wash hands before eating.
::[[Special:Contributions/120.145.145.144|120.145.145.144]] ([[User talk:120.145.145.144|talk]]) 01:07, 16 October 2013 (UTC)


In a novel I've just finished (''[[The Chemistry of Death]]'' by [[Simon Beckett]]) he writes:
== Human mortality question ==
* ''[The larvae] leave the body in an orderly fashion, following each other in a neat procession that always heads south. South-east or south-west sometimes, but never north. No-one knows why''.


The author has done considerable international research on the science of forensic identification of decayed bodies and I assume his details can be trusted.
Based on known age-specific mortality rates, what is the expected time between successive deaths of the world's oldest inhabitant?→[[Special:Contributions/31.54.112.70|31.54.112.70]] ([[User talk:31.54.112.70|talk]]) 22:42, 15 October 2013 (UTC)


I've looked online for any verification of this surprising statement, but found only [https://www.quora.com/Why-do-maggots-all-go-the-same-direction this], which seems to debunk it.
:A little over one year. You don't have to estimate it, since we know the true answer: [[World's oldest person#Chronological list of the verified oldest living person since 1955]]. [[User:Someguy1221|Someguy1221]] ([[User talk:Someguy1221|talk]]) 22:48, 15 October 2013 (UTC)


Is there any truth to this? -- [[User:JackofOz|<span style="font-family: Papyrus;">Jack of Oz</span>]] [[User talk:JackofOz#top|<span style="font-size:85%; font-family: Verdana;"><sup>[pleasantries]</sup></span>]] 23:38, 19 December 2024 (UTC)
:::You would have good luck asking this question at the Math desk. It's a basic stats question and the Oldest person page is a large enough dataset to get a good estimate. I don't know how to do the math for you offhand, but they will. I'm guessing a [[poisson distribution]] would be a good start. [[User:Shadowjams|Shadowjams]] ([[User talk:Shadowjams|talk]]) 02:29, 16 October 2013 (UTC)


:Can't speak to its truth, but . . .
= October 16 =
:* Does Beckett state this in his own auctorial voice (i.e. as an [[Narration|omniscient narrator]])? If so, he might be genuinely mistaken.
:* The book was published nearly 20 years ago, what was the accepted wisdom ''then''?
:* What specific species (if any) is the book describing? – your linked Quora discussion refers only to "maggots" (which can be of numerous species and are a kind of larva, but there are many others, including for example [[Thaumetopoeinae|Processionary caterpillars]]).
:*Alternatively, if the statement is made by a character in the book, is that character meant to be infallible, or is he portrayed as less than omniscient, or an '[[unreliable narrator]]'?
:Regarding the statement, in the Northern hemisphere the arc of South-east to South-west is predominently where the Sun is found well above the horizon, the North never, so the larvae involved might simply be seeking maximum warmth or light. {The poster formerly known as 87.81.230.195} [[Special:Contributions/94.1.223.204|94.1.223.204]] ([[User talk:94.1.223.204|talk]]) 02:18, 20 December 2024 (UTC)


:: This appears in the very first paragraph of Chapter I, which starts out:
== Trackside thing ==
::* ''A human body starts to decompose four minutes after death. Once the encapsulation of life, it now undergoes its final metamorphoses. It begins to digest itself. Cells dissolve from the inside out. Tissue turns to liquid, then to gas. No longer animate, the body becomes an immovable feast for other organisms. Bacteria first, then insects. Flies. Eggs are laid, then hatched. The larvae feed on the nutrient-rich broth, and then migrate. They leave the body in an orderly fashion ...'' (then the quote above completes the paragraph).
:: It's not until para 2 that he starts talking about any human characters, and not until para 4 that he invokes the first person.
:: That's as much as I know. But I find it hard to believe he'd just make up a detail and put it in such a prominent place if it could so easily be debunked if it were not true. -- [[User:JackofOz|<span style="font-family: Papyrus;">Jack of Oz</span>]] [[User talk:JackofOz#top|<span style="font-size:85%; font-family: Verdana;"><sup>[pleasantries]</sup></span>]] 02:39, 20 December 2024 (UTC)
:::I wonder how they would measure the migratory path of maggots within a sealed coffin. ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 02:51, 20 December 2024 (UTC)
:::: The context of the novel is about finding decaying corpses that have been dumped in a forest. No coffins involved. -- [[User:JackofOz|<span style="font-family: Papyrus;">Jack of Oz</span>]] [[User talk:JackofOz#top|<span style="font-size:85%; font-family: Verdana;"><sup>[pleasantries]</sup></span>]] 06:08, 20 December 2024 (UTC)
::::::[[User:Baseball Bugs|Baseball Bugs]], see also [[body farm]] research facilities. [[User:Alansplodge|Alansplodge]] ([[User talk:Alansplodge|talk]]) 13:44, 20 December 2024 (UTC)
:::::Could it be that the larvae are setting off in search of another corpse? The prevailing wind in the UK is from the south-west, so by heading into the wind they won't be distracted by the frangrance of the one they've just left. [[User:Shantavira|Shantavira]]|[[User talk:Shantavira|<sup>feed me</sup>]] 09:30, 20 December 2024 (UTC)


If you can, have a look at 'Heinrich, Bernd. “Coordinated Mass Movements of Blow Fly Larvae (Diptera: Calliphoridae).” Northeastern Naturalist, vol. 20, no. 4, 2013, pp. N23–27. JSTOR, http://www.jstor.org/stable/43288173.' Here are some extracts
[[File:Trackside_thing.jpg|thumb|right|What is this?]]
* On the fourth day, after a cooling night with dew on the grass, a stream of tens of thousands of larvae exited from beneath the carcass within 1 h after sunrise, and proceeded in a single 1-2-cm-wide column directly toward the rising sun...
* However, in this case, the larvae left at night, within 1 h after a cloudburst (at 21 :00 hours). But, unlike before, this nocturnal larval exodus in the rain was diffuse; thousands of larvae spread out in virtually all directions over an 8 m2area. Apparently, the sudden moisture had cued and facilitated the mass exodus, but the absence of sun had prevented a unidirectional, en masse movement.
* However, on the following morning as the sun was starting to illuminate the carcass on the dewy grass, masses of larvae gathered at the east end of the carcass at 07:00 hours. In one half hour later, they started streaming in a column directly (within one degree) toward the rising sun, and the carcass was then nearly vacated.
It goes on. Maggot migration appears to be a bit more complicated than the novel suggests. [[User:Sean.hoyland|Sean.hoyland]] ([[User talk:Sean.hoyland|talk]]) 09:39, 20 December 2024 (UTC)
I suppose you could try to address it from the other direction and look at the technology your average maggot has access to in terms of light detection, heat detection, olfactory systems, orientation in magnetic fields (like many arthropods) etc. They presumably have quite a lot of tools. [[User:Sean.hoyland|Sean.hoyland]] ([[User talk:Sean.hoyland|talk]]) 10:13, 20 December 2024 (UTC)


:If orderly migrating maggots tend to move towards the sun, they should display a northward tendency in Oztralia. &nbsp;--[[User talk:Lambiam#top|Lambiam]] 10:31, 20 December 2024 (UTC)
Over the past few years, thousands of these things have appeared alongside UK railways. What are they? They are about five feet tall and in groups of maybe 30-60 spaced about 20 feet apart. This one was quickly snapped on my phone near Milton Keynes.--[[User:Shantavira|Shantavira]]|[[User talk:Shantavira|<sup>feed me</sup>]] 08:02, 16 October 2013 (UTC)
:: Maybe, but the novel is set in England.
:They are trackside lights for night inspections. [http://www.railforums.co.uk/showthread.php?t=86972 Source][[User:Mrfrobinson|Mike]] ([[User talk:Mrfrobinson|talk]]) 13:53, 16 October 2013 (UTC)
:: I must say, as soon as I read the quoted para for the first time, my immediate thought was that it might have something to do with the magnetic field of the earth. -- [[User:JackofOz|<span style="font-family: Papyrus;">Jack of Oz</span>]] [[User talk:JackofOz#top|<span style="font-size:85%; font-family: Verdana;"><sup>[pleasantries]</sup></span>]] 10:42, 20 December 2024 (UTC)
:::Prime suspect might be the Bolwig organ, the photoreceptor cluster many fly larvae have. [[User:Sean.hoyland|Sean.hoyland]] ([[User talk:Sean.hoyland|talk]]) 10:49, 20 December 2024 (UTC)
:::Obviously, Jack, you need to create a corpse, place it in a nearby forest, and carefully observe which way the maggots go. For Science! And Literary Criticism! {The poster formerly known as 87.81.230.195} [[Special:Contributions/94.1.223.204|94.1.223.204]] ([[User talk:94.1.223.204|talk]]) 21:01, 20 December 2024 (UTC)


= December 20 =
::Ah, that's interesting. Thanks.--[[User:Shantavira|Shantavira]]|[[User talk:Shantavira|<sup>feed me</sup>]] 15:53, 16 October 2013 (UTC)
:::No problem! I found it just as interesting! [[User:Mrfrobinson|Mike]] ([[User talk:Mrfrobinson|talk]]) 15:54, 16 October 2013 (UTC)


== Children crying because they can't do something? ==
== Winter solstice and time of sunrise? ==


How is it that despite December 21st supposedly being the shortest day of the year, sunrise here happens later and later until December 26 and only on January 05 starts to turn around to occur earlier and earlier. On December 25 it takes place at about 08:44, between December 26 and January 04 it takes place at about 08:45, and on January 05 it takes place again at about 08:44. (Google rounds out the seconds). Is it Google's fault? Is it everywhere the same? Confused in Brussels, Belgium. [[Special:Contributions/178.51.16.158|178.51.16.158]] ([[User talk:178.51.16.158|talk]]) 12:06, 20 December 2024 (UTC)
Is it common for children to cry because they find something difficult? I recall crying about age 10 because I found it too hard to join up my writing (my cursive is now pretty neat IMO) which seems a strange thing to get upset about. --[[Special:Contributions/129.215.47.59|129.215.47.59]] ([[User talk:129.215.47.59|talk]]) 10:43, 16 October 2013 (UTC)
:The pertinent article is [[Analemma]], start with the section [[Analemma#Earliest_and_latest_sunrise_and_sunset|Earliest and latest sunrise and sunset]]. The details are not that simple to understand, but it's basically due to the ellipticity of Earth's orbit and its axial tilt. --[[User:Wrongfilter|Wrongfilter]] ([[User talk:Wrongfilter|talk]]) 12:22, 20 December 2024 (UTC)
:The Wikipedia article titled [[Crying]] states "Crying is believed to be an outlet or a result of a burst of intense emotional sensations". The inability to complete a task can bring on intense stress, which would be an "intense emotional sensation". --[[User:Jayron32|<font style="color:#000099">Jayron</font>]]'''''[[User talk:Jayron32|<font style="color:#009900">32</font>]]''''' 10:48, 16 October 2013 (UTC)
::Also note that sunset begins to be later on 22 December so that the time between sunrise and sunset is a few seconds longer than on 21 December (3 seconds longer on 22/12/24 in Brussels according to [https://www.timeanddate.com/sun/belgium/brussels this]). [[User:Alansplodge|Alansplodge]] ([[User talk:Alansplodge|talk]]) 13:33, 20 December 2024 (UTC)
::If people around you are doing something effortlessly, and being praised for it, but you can't do it yourself, that's pretty frustrating. Happens to adults too. I'm in my sixties and still can't do joined up writing, not legibly anyway. Fortunately one develops a sense of perspective with time.--[[User:Shantavira|Shantavira]]|[[User talk:Shantavira|<sup>feed me</sup>]] 11:06, 16 October 2013 (UTC)
::Also see [[Equation of time#Major components]]. The obliquity of the ecliptic (that is, the Earth's axial tilt) is the main component and hardest to understand. But the idea is that the time when the Sun is exactly south (that is, the true noon) moves some minutes back and forth throughout the year and it moves quite rapidly to later times in late December. [[User:PiusImpavidus|PiusImpavidus]] ([[User talk:PiusImpavidus|talk]]) 19:05, 20 December 2024 (UTC)
:::A child might well cry because he does not understand some homework requirement such as finding the common denominator in order to add fractions, or writing a book report. Crying can also be a learned response, or a form of manipulation, to get a parent to do the homework for him, or to just avoid doing it at all. I did not see in our article about crying mention of crying as a learned or intentional tactic, or a form of manipulation,or a for of emotional blackmail to get something or to avoid something, although [http://books.google.com/books?id=cxxPxS9BYDMC&pg=PA129&dq=crying+as+manipulation&hl=en&sa=X&ei=LwlfUrf4ConOyAGJs4CIDg&ved=0CC8Q6AEwAA#v=onepage&q=crying%20as%20manipulation&f=false books say it sometimes is]. [[User:Edison|Edison]] ([[User talk:Edison|talk]]) 21:48, 16 October 2013 (UTC)


== Three unit questions ==
::::I suggest that you pretend to cry, record yourself, and play it back to see how well you did. My guess is that you, like almost everybody else, would be laughably bad at it. --[[User:Bowlhover|Bowlhover]] ([[User talk:Bowlhover|talk]]) 05:10, 17 October 2013 (UTC)
:::::I can cry on command, it's very lifelike and I doubt anyone who didn't know me extremely well would be aware it was fake. A lot of my ex-girlfriends, and a few ex-boyfriends (women seem better at this), could do the same with varying degrees of realism- but all on the believeable end of the spectrum. Then again, I know a lot of actors, and while not all of them were, this may bias things a bit. At any rate, it isn't that difficult to do consciously, and if it is a learned response, it might not even be being done consciously- in other words, it's neither implausible nor infeasible.[[User:Phoenixia1177|Phoenixia1177]] ([[User talk:Phoenixia1177|talk]]) 06:47, 17 October 2013 (UTC)


# Why territorial waters are defined by nautical miles instead of kilometers?
== Power used by mobile phone and radio towers ==
# Why GDP is usually measured in US dollars rather than euros? Euro would be better because it is not tied into any country.
# Are there any laws in United States that are defined by metric units?
--[[User:40bus|40bus]] ([[User talk:40bus|talk]]) 23:30, 20 December 2024 (UTC)
:#There were nautical miles in use before there were kilometers.
:#There were US dollars in use before there were Euros.
:#Yes.
:The questions all reduce to Why can't millions of people make a change of historically widely accepted units that continue to serve their purpose, and convert to different units that would have no substantive difference, because someone has an opinion. [[User:Philvoids|Philvoids]] ([[User talk:Philvoids|talk]]) 00:52, 21 December 2024 (UTC)
::Do any people use metric units in marine and air navigation like "The ship is 10 kilometers from the port", "The plane is 10 kilometers from the destination? And is there any European country with metric flight levels? --[[User:40bus|40bus]] ([[User talk:40bus|talk]]) 07:22, 21 December 2024 (UTC)
:::Inland shipping (rivers, canals and lakes) in Europe (except the UK) is fully metric. Ships going for example [[Tilbury]] – [[Duisburg]] may have to switch units along the way. Gliders and ultralight aircraft in Europe often use metric instruments and airport dimensions are also metric (including runway length). Countries are free to define their territorial waters in whatever way they deem fit, so with nautical miles having no legal status in a fully metric country, they may define their territorial waters as extending 22224 metres. [[User:PiusImpavidus|PiusImpavidus]] ([[User talk:PiusImpavidus|talk]]) 11:23, 21 December 2024 (UTC)
::::Our [[nautical mile]] article says: {{xt|"In 1929 the international nautical mile was defined by the First International Extraordinary Hydrographic Conference in Monaco as exactly 1,852 metres (which is 6,076.12 ft). The United States did not adopt the international nautical mile until 1954. Britain adopted it in 1970..."}}
::As the US customary units are actually defined in terms that relate them to metric units, any US law based on measurements is technically defined by metric units.--[[User:Khajidha]] ([[User talk:Khajidha|talk]]) ([[Special:Contributions/Khajidha|contributions]]) 01:55, 21 December 2024 (UTC)
:::The US dollar has been the world's dominant [[reserve currency]] for about 75 years. As for the metric system in the US, it is standard in scientific, medical, electronics, auto manufacturing and other highly technical industries. By law, all packaged foods and beverages have metric quantities as well as customary quantities. See [[Metrication in the United States]]. [[User:Cullen328|Cullen328]] ([[User talk:Cullen328|talk]]) 02:28, 21 December 2024 (UTC)
The Wikipaedia article on the Nautical Mile talks about how the term originated, it was originally defined in terms of latitude not as a number of meters [[Special:Contributions/114.75.48.128|114.75.48.128]] ([[User talk:114.75.48.128|talk]]) 10:03, 24 December 2024 (UTC)


= December 24 =
When a load is connected to the secondary of a transformer, the power drawn by the primary from the source increases because of the magnetic coupling. Will something similiar happen when a mobile phone is switched on? Suppose a thousand phones get switched on (and hence get 'connected' to the tower), will the tower use more power? The same question applies to radio transmission towers. Does a radio tower consume a more power when radios get tuned to it's frequency (and hence gets 'coupled')? - [[User:wikicheng|Wiki'''''Cheng''''']] | [[User talk:wikicheng|Talk]] 10:53, 16 October 2013 (UTC)


== Unknown species of insect ==
:From first principles of physics, we know that a transmitting antenna's effective impedance does change due to the presence of a receiving antenna, even if the receiver is many miles away. But that effect is tiny - you can do the math to verify. In the case of ordinary telecommunications, radio antennas operate in the [[far field]] (as opposed to [[near field]]). ''Definitionally,'' this means that the effects of the receiving antenna are too far away to matter.
:A much more prominent effect is that modern digital telephones use a bidirectional protocol. Telephone transmitters are not [[broadcast]] towers: they are nodes in a many-node, asymmetric full-[[Duplex (telecommunications)|duplex communication]]. The transmitter has more work to do when multiple devices are attached. Perhaps the easiest protocol to intuitively understand is [[time-division multiplexing]]; adding more telephones would require a higher [[duty cycle]]; in other words, the transmitter is on for a longer part of each time interval, and therefore uses a higher [[average power]].
:Depending on where you are, and which company runs your mobile telephones, time-division multiplexing might be supplanted by more advanced digital communication protocols; but in principle, whichever scheme they choose will have the same general relationship between number of users and total transmitter power usage. (Thanks to the rule-of-thumb about circuit design, the [[gain-bandwidth product]], we can relate the engineering tradeoffs between time- and frequency-multiplexing of the transmitter design back to first principles of physics, and the conservation of energy, and so on). Whether you spend the power over a wider frequency-spectrum during a short interval (typically, using complex digital codings); or if you use a narrow spectrum for a longer interval (using time-division scheduling); the same power-bandwidth product gives the same signal-to-noise ratio. In actual designs, practical details may shift the optimal choice in one direction or the other. So, this gives the engineers who design radio protocols a little room for flexibility, and lets them pick the best-available scheme that is implementable in today's electronics technology.
:In closing, I should mention that the concepts of [[base load]] and [[variable load]] also apply to transmitters; it is plausible that for a large transmitter, the base load is so close to the variable-load that the transmitter's power supply cannot reasonably switch modes, or otherwise deliver a variable quantity of power. Such large power-supplies are difficult to design efficiently, and this is an active area for new engineering research and development. Now that software can switch transmitters on and off as fast as, say, once per millisecond (!), power supplies need to be designed that can toggle between peak and idle at rates very close to those software latencies. This seems trivial to the engineers with backgrounds in software and digital systems, but as the power supply designers need to build capacitors and inductors and so forth, they are constrained by device size and switching time. So, while controlling a digital signal at two gigahertz is very easy using today's computers, swinging a couple hundred kilowatts on and off at even one kilohertz is quite difficult. Compound this difficulty by the fact that your cellular tower is sometimes in a remote area that might not connect to a utility electric grid: it might have its own diesel engine or gas turbine... [[User:Nimur|Nimur]] ([[User talk:Nimur|talk]]) 13:37, 16 October 2013 (UTC)


Am I correct in inferring that [[File:Anomala orientalis on window screen.jpg|150px]] this guy is an [[oriental beetle]]? I was off-put by the green head at first, but the antennae seem to match. '''[[User:JayCubby|<span style="background:#0a0e33;color:white;padding:2px;">Jay</span>]][[User talk:JayCubby|<span style="background:#1a237e;color:white;padding:2px;">Cubby</span>]]''' 03:00, 24 December 2024 (UTC)
== A geometrical analyze of camera capture blur? ==


(reference: https://www.genesdigest.com/macro/image.php?imageid=168&apage=0&ipage=1)
If one takes a picture with a camera like the [http://www.dpreview.com/reviews/canon-eos-5d-mark-iii/2 Canon EOS 5D Mark III] which has a image sensor with a size of 36 x 24 mm and 5760 x 3840 pixels. That captures an object that moves 0.178 meter sideways during the exposure time at a distance of {{nowrap|180 meters}} from the photographer. How many mm or pixels will the light from the object traverse during the image exposure? <small>I suspect the distance from the middle of the lens to the sensor plays role here but don't find any data to calculate with.</small> [[User:Electron9|Electron9]] ([[User talk:Electron9|talk]]) 12:15, 16 October 2013 (UTC)


:<s>It looks like one of the invasive [[Japanese beetle]]s that happens to like my blackberries in the summer.</s> [[User:Modocc|Modocc]] ([[User talk:Modocc|talk]]) 13:11, 24 December 2024 (UTC)
:You have not supplied one vital piece of information. You need the focal length of the lens in use. The pixels traversed will obviously be greater if the lense is set for a higher zoom-in. [[Special:Contributions/120.145.145.144|120.145.145.144]] ([[User talk:120.145.145.144|talk]]) 12:43, 16 October 2013 (UTC)


::I would say not necessarily a Japanese beetle, but almost certainly one of the other [[Scarabaeidae|Scarab]] beetles, though with 35,000 species that doesn't help a lot. Looking at the infobox illustration in that article, 16. & 17., "[[Anisoplia segetum]]" looks very similar, but evidently we either don't have an article or (if our [[Anisoplia]] article is a complete list) it's been renamed. {The poster formerly known as 87.81.230.195} [[Special:Contributions/94.1.223.204|94.1.223.204]] ([[User talk:94.1.223.204|talk]]) 14:18, 24 December 2024 (UTC)
::I updated the distance to 180 m. And found this EXIF info which I hope completes the input data set:
::{| class=wikitable
! Parameter !! Value
|-
| ApertureValue || 7,00 EV (f/11,3)
|-
| FocalLength || 120,0 mm
|-
| FocalPlaneResolutionUnit || Inch
|-
| FocalPlaneXResolution || 3942,5051
|-
| FocalPlaneYResolution || 3950,617
|-
| XResolution || 300/1
|-
| YResolution || 300/1
|}
::Perhaps the EXIF "FocalLength" is another type of focal length ? [[User:Electron9|Electron9]] ([[User talk:Electron9|talk]]) 14:51, 16 October 2013 (UTC)
:::Assuming that focal length is correct, the object's image would have moved 120(.178/180)=.1187 mm during the exposure time, which at 160 pixels/mm amounts to 19 pixels. The 36 x 24 mm sensor size is the same as the standard 35mm image size, so at least there's no distinction here between the real focal length and the [[35 mm equivalent focal length]]. [[User:Red Act|Red Act]] ([[User talk:Red Act|talk]]) 17:16, 16 October 2013 (UTC)


:::Yes, it's not the Japanese beetle for this beetle appears to lack its white-dotted fringe although its condition is deteriorated. Its shape is also more or less more slender; and not as round. [[User:Modocc|Modocc]] ([[User talk:Modocc|talk]]) 15:02, 24 December 2024 (UTC)
:::It's occurred to me that your phrase "another type of focal length" might possibly be due to your finding the comma in "120,0" to be confusing, because it looks like two numbers separated by a comma, or a number in the thousands with an inadequate number of zeroes after the comma. It actually just means 120.0 ; a comma is used instead of a decimal point in many parts of the world, including most of Europe and South America. See [[Decimal mark]]. [[User:Red Act|Red Act]] ([[User talk:Red Act|talk]]) 21:01, 16 October 2013 (UTC)
:::: Considering the camera dimensions are 152 x 116 x 76 mm, I find the 120 mm focal length rather large. [[User:Electron9|Electron9]] ([[User talk:Electron9|talk]]) 06:10, 17 October 2013 (UTC)
:::::In the picture in the link you gave, it looks like the camera's largest dimension is along the optical axis. And the dimensions don't appear to be for just the body of the camera without the lens, because 76mm would be an extraordinarily thick camera body. So the 120mm focal length seems quite plausible to me, because it's 32mm less than the 152mm total size of the camera along the optical axis. [[User:Red Act|Red Act]] ([[User talk:Red Act|talk]]) 11:57, 17 October 2013 (UTC)


:Perhaps it is the [[shining leaf chafer]] [[Strigoderma pimalis]]. Shown [https://bugguide.net/node/view/224249 here]. [[User:Modocc|Modocc]] ([[User talk:Modocc|talk]]) 16:09, 24 December 2024 (UTC)
== Can natural remedies also be synthetic? ==
::That looks like easily the best match I've seen so far, and likely correct. {The poster formerly known as 87.81.230.195} [[Special:Contributions/94.1.223.204|94.1.223.204]] ([[User talk:94.1.223.204|talk]]) 17:09, 24 December 2024 (UTC)


= December 25 =
Among the natural occurring substances sold as pharmaceutical drugs (take for example, [[melatonin]] or [[5htp]]), could it be that you find several synthesize substances? That would be funny, since some people take them because they want to avoid artificial substances. [[User:OsmanRF34|OsmanRF34]] ([[User talk:OsmanRF34|talk]]) 15:34, 16 October 2013 (UTC)

:Your terminology is wrong -- in the US those things are sold as [[dietary supplement]]s, not as [[pharmaceutical drug]]s. My understanding is that in the US, if a chemical is synthesized, it is treated as a pharmaceutical drug, and the manufacturer has to provide proof of safety before it can be sold. If it is derived from a plant or animal, it is treated as a dietary supplement, and the burden of proof is in the other direction. [[User:Looie496|Looie496]] ([[User talk:Looie496|talk]]) 15:50, 16 October 2013 (UTC)

:::I doubt that's correct Looie. There are synthesized "artificial" products that are not drugs, such as many "artificial flavors." There are specific definitions of "drug" and so I can't speak to them all, but at least some of those do not turn on whether a product is synthesized. I would need to see a good cite before I believed Looie's comment. [[User:Shadowjams|Shadowjams]] ([[User talk:Shadowjams|talk]]) 23:07, 16 October 2013 (UTC)

::::See the section about the DSHEA in [http://www.ashp.org/DocLibrary/Bookstore/P866/SampleChapter-P866.aspx], it discusses the shift in burden of proof to the FDA- the initial segment discusses that drugs must undergo stringent testing. Here's the actual text of the act (DSHEA), [http://www.fda.gov/RegulatoryInformation/Legislation/FederalFoodDrugandCosmeticActFDCAct/SignificantAmendmentstotheFDCAct/ucm148003.htm#sec4], see section 4 about the burden of proof issues; this, also from the FDA, [http://www.fda.gov/food/dietarysupplements/] mentions that the FDA is required to take action after it is on the market. This from the FDA, [http://www.fda.gov/AboutFDA/Transparency/Basics/ucm194344.htm], states that supplements do not require approval. For an FDA def. of a drug, see section 321(g)(1) of [http://www.gpo.gov/fdsys/pkg/USCODE-2010-title21/pdf/USCODE-2010-title21-chap9-subchapII-sec321.pdf]- in that section, it mentions a distinction between drug and supplement relating to section 343(r), which can be found in this document, [http://www.gpo.gov/fdsys/pkg/USCODE-2010-title21/pdf/USCODE-2010-title21-chap9-subchapIV-sec343.pdf][[User:Phoenixia1177|Phoenixia1177]] ([[User talk:Phoenixia1177|talk]]) 09:08, 17 October 2013 (UTC)
:::::By the way, this is in relation to the burden of proof claim- natural -vs- synthetic does not appear to enter into the issue, it appears to be related to what is being claimed. I haven't done the research on that specific aspect, but nothing I've read seems to draw a distinction, it is not directly in the definitions- indeed, the linked ones would appear to refute the claim, unless they were amended somewhere.[[User:Phoenixia1177|Phoenixia1177]] ([[User talk:Phoenixia1177|talk]]) 10:09, 17 October 2013 (UTC)
::But the lines gets blurry when the same chemical can either be produced by nature or in a lab. [[User:StuRat|StuRat]] ([[User talk:StuRat|talk]]) 19:57, 16 October 2013 (UTC)

:This makes me think of 1080 poison, it is used to eradicate possums, which an introduced pest in New Zealand. If I'm not mistaken, being sodium fluoroacetate, it is a salt of a "natural substance", isolable from certain plants. So 'natural/organic/non-synthetic' are utterly useless terms when determining the toxicity of a substance. [[User:Plasmic Physics|Plasmic Physics]] ([[User talk:Plasmic Physics|talk]]) 00:29, 17 October 2013 (UTC)

:If the absolute structure of a synthetic substance is exactly the same as that of the naturaly derived substance then it is considered [[bioidentical]] and as long as it is very very pure then it is as "good" as and as "healthy" as the purified "natural" one. This is essentially an economic desision, is it cheaper to extract from the natural source e.g. [[morphine]] or synthesize e.g. [[ephedrine]] and [[pseudoephedrine]]. [[User:Die Antwoorde|Die Antwoorde]] ([[User talk:Die Antwoorde|talk]]) 08:07, 17 October 2013 (UTC)

:<small><rant>I find the "natural = good for you, artificial = bad for you" philosophy one of the strangest perversions of logic of modern times. Firstly an artificial substance that is chemically identical to a natural one is indistinguishable from it - it doesn't remember how it is made, it is, literally, the same thing. Secondly the statement is patently, demonstrably ridiculous - arsenic, mercury, uranium, snake venoms, hemlock, [[amatoxin]], and all infectious diseases are entirely "natural", and not one of them is good for you. Paracetemol, aspirin and hundreds of other drugs are entirely synthesised and, if taken appropriately, cause little harm compared to the amount of good they do. Thirdly it is not even applied consistently - I have often seen [[vaccines]] disparaged because they are "artificial" when they are in fact one of the most natural therapies I can think of - priming the immune system to respond to previously encountered antigen is entirely in harmony with how the immune system naturally works. It is certainly more natural than many alternative therapies, take [[accupuncture]] - in what situation in nature are needles inserted in extremely specific locations on the body? This is not even getting into the strangeness of the philosophical position that regards humans and what they make and do as "not part of nature".</rant> [[User:Equisetum|Equisetum]]<small> ([[User talk:Equisetum|talk]] &#124; [[Special:Contributions/Equisetum|contributions]])</small> 11:24, 17 October 2013 (UTC)</small>

::For natural vs [[nature identicle]])The difference resides in the impurities present!
::For compouds that are "[[human designed]]"?)It is mainly a hstory of safe use thing. And it is not like we even know all of whats naturally in everything or if cretain "human designed" desigen compounds naturally occur in something! [[User:Die Antwoorde|Die Antwoorde]] ([[User talk:Die Antwoorde|talk]]) 12:55, 17 October 2013 (UTC)
:::Fair enough - if the impurities make a difference then they make a difference, but then the issue is the impurities, not the natural vs. artificial origin (if you could replicate the impurities as well the artificial stuff would be just like the natural). Likewise with the history of safe use - the issue is the history of safe use, not the origins, a newly discovered natural substance is more risky than an artificial compound with a long history of safe use. I accept that natural vs artificial can often broadly correlate with both these things, but I find the masking of the real issues behind the facade of natural vs artificial to be unhelpful at best and profoundly damaging to people's ability to make rational decisions at worst. Note that I'm not accusing anyone in this thread of this at all - in my opinion it's predominantly the mainstream media and the food and supplement industries that are responsible (along with the generally abysmal standard of school education in critical thinking and the assessment of evidence). [[User:Equisetum|Equisetum]]<small> ([[User talk:Equisetum|talk]] &#124; [[Special:Contributions/Equisetum|contributions]])</small> 14:40, 17 October 2013 (UTC)
::::What about enviromental etc differences between extraction of natural vs synthetic not just the bottom line $$. [[Special:Contributions/122.111.240.138|122.111.240.138]] ([[User talk:122.111.240.138|talk]]) 15:37, 17 October 2013 (UTC)
:::::Yes, agreed - where it is environmentally better to naturally extract a compound that should be taken into account (and often isn't - I didn't claim that I'm in favour of pharma and agritech's approaches to the issue either, quite the opposite!), however where it is environmentally better to artificially synthesise a compound (such as where extraction by e.g. distillation uses a lot of energy, or where the substance originates from an endangered species), that should also be taken into account. Again, all I am saying is that natural vs artificial is a ''poor proxy'' for the real issues such as this. [[User:Equisetum|Equisetum]]<small> ([[User talk:Equisetum|talk]] &#124; [[Special:Contributions/Equisetum|contributions]])</small> 16:12, 17 October 2013 (UTC)
::::But, wouldn't the probabilities of impurities be lower in the case of artificial compounds? It seems intuitively easier to synthesize a pure compound than extract a pure one from some organic matter. [[User:OsmanRF34|OsmanRF34]] ([[User talk:OsmanRF34|talk]]) 15:03, 17 October 2013 (UTC)
:::::Yer but the impurities will likely be not natural stuff with no history of safe use.
::::::A fair point - now we are getting to real issues - I am indeed willing to accept that in the specific case of a substance which has long been safely used in a natural preparation, the risk of using a new artificial preparation is possibly elevated due to the new impurities (assuming that the preparation can't be demonstrated e.g. by [[mass spectrometry]] to be effectively impurity free). It may also be less effective due to a missing beneficial impurity. However, this is equally true of a new artificial synthesis method which replaces an older one - it's about the ''change'' of synthesis method, not natural vs artificial, the trouble is, lots of thinking on this is clouded by the fact that most older, more well established preparations ''happen'' to be natural due to the relative youth of the field of synthetic chemistry. [[User:Equisetum|Equisetum]]<small> ([[User talk:Equisetum|talk]] &#124; [[Special:Contributions/Equisetum|contributions]])</small> 16:01, 17 October 2013 (UTC)
:::::Yes, this is what I mean about general, broad correlates. It's important to bear in mind though that a) artificially produced substances will have impurities at some level as well, such as reaction intermediates and degradation products, they will just be different ones to the natural products (and they can be in any amount - it entirely depends on the degree of purification, it may be ''easier'' to get a pure compound artificially, but the purity you end up with still depends on how much effort you put in to purification) and b) impurities, whether natural or artificial are probably about as likely to be bad for you as good for you, and many are going to be completely neutral (I don't have any source for this, it's just naive logic - I would be interested to hear if anyone has done studies on this point). [[User:Equisetum|Equisetum]]<small> ([[User talk:Equisetum|talk]] &#124; [[Special:Contributions/Equisetum|contributions]])</small> 16:01, 17 October 2013 (UTC)

:There is also the possibility of introducing new impurities (even into the natural) products through the purification processes. How pure dose the synthetic caffine that goes into coke have to have to be I wonder [[U.S.P]] ?. <span style="font-size: smaller;" class="autosigned">— Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/122.111.240.138|122.111.240.138]] ([[User talk:122.111.240.138|talk]]) 16:28, 17 October 2013 (UTC)</span><!-- Template:Unsigned IP --> <!--Autosigned by SineBot-->

== Antibiotics in routine lab work ==

I was wondering how/why certain antibiotics are selected for use in lab work. Why penicillin and streptomycin and ampicillin and kanomycin? Is their use or disuse in medicine a consideration? --[[Special:Contributions/129.215.47.59|129.215.47.59]] ([[User talk:129.215.47.59|talk]]) 16:17, 16 October 2013 (UTC)
:I'm not sure what you mean by "lab work", but generally speaking the antibiotic effects of these drugs are a consequence of their chemical properties, which can make them useful in other contexts. For example, penicillin breaks down a component of the bacterial cell wall -- it also causes epileptic activity when applied to brain tissue in high concentrations. [[User:Looie496|Looie496]] ([[User talk:Looie496|talk]]) 16:27, 16 October 2013 (UTC)
::"Lab work" meant such work in a life science research facility, forensics lab or a myriad of other establishments employing such techniques as bacterial transformation and/or culture for production of plasmid DNA, among other things. --[[Special:Contributions/2.97.26.56|2.97.26.56]] ([[User talk:2.97.26.56|talk]]) 21:39, 16 October 2013 (UTC)
:::Almost certainly price and availability factor in greatly, but there is also a lot of mindless rote tradition in biology. If someone does a demonstration once and it works, the next will tend to do the same thing, and the next, and the next... [[User:Wnt|Wnt]] ([[User talk:Wnt|talk]]) 04:11, 17 October 2013 (UTC)
::::More mindless than in chemistry and physics? [[Special:Contributions/129.215.47.59|129.215.47.59]] ([[User talk:129.215.47.59|talk]]) 10:35, 17 October 2013 (UTC)

::::I'd agree there is a lot of rote tradition in biology - but it isn't exactly mindless most of the time - if something works well you stick with it unless you have a good reason not to. This is for at least two very good reasons 1) It lets you more easily compare your experiments with others both in the same lab and outside it 2) you don't generally have to spend nearly so much time optimising protocols if they are already well used and characterised. I quite deliberately try to use "standard" techniques when I can because of this. It does often become mindless though when something doesn't work well for a particular system and people stick with it anyway because it is "what everyone does". With the antibiotics specifically, they are often used as a [[selectable marker|selection agent]] when transforming bacteria etc. (i.e. you include a antibiotic resistance gene in your construct so that you can select for those bacteria that have taken it up by plating them on antibiotic media). For this you need to use one which has a cloned, characterised and readily available resistance gene. In practice, since people don't tend to design their own [[vector (molecular biology)|vectors]] if they can use one "off the shelf" the choice is usually made for you when you choose the vector. I have never come across medical use as a specific contraindication for using an antibiotic (I presume you are thinking that you don't want to go around playing with resistance genes for medically essential antibiotics in case of accidental release). If you are using proper [[biosafety]] procedures it should not be to much of an issue in any case. I'm still not sure that I would be comfortable using a "last ditch" antibiotic such as [[vancomycin]] in the lab, although I have come across one protocol in the literature which used it (as a "quick and dirty" way to eliminate the gut [[microbiome]] of a mouse when you don't have access to germ free and [[gnotobiotic]] mice). [[User:Equisetum|Equisetum]]<small> ([[User talk:Equisetum|talk]] &#124; [[Special:Contributions/Equisetum|contributions]])</small> 10:58, 17 October 2013 (UTC)
::::::I used to have a construct that used [[chloramphenicol]] as a control. It was the horrible cut-and-paste vector that had been spliced together from a number of different commercial plasmids, and passed down from lab to lab. No one even had a map of the whole vector, and it had duplicate restriction sites in completely illogical places, including several in the middle of the antibiotic resistance gene! Completely mind boggling that anyone used it. Part of why I'm glad I don't do much of any molecular biology these days.<small>'''[[User:Protein Chemist|(+)H<sub>3</sub>N]]-[[Special:Contributions/Protein Chemist|Protein\Chemist]]-[[User_talk:Protein Chemist|CO<sub>2</sub>(-)]]'''</small> 11:15, 17 October 2013 (UTC)
:::::::Yes - that'll be the mindless part alright (not on your part - you recognised it was bad) - jesus, I can imagine using that, grudgingly, if I absolutely had to, but an incompletely mapped vector is entirely too much flying blind for my taste. Another thing I particularly "like" about molecular biology is the fact that no-one at all follows the protocols in the standard reference book (Molecular Cloning, A laboratory manual) because a PhD would take half your life if you did, but there is no standard reference for the quicker protocols and shortcuts that everyone actually uses! [[User:Equisetum|Equisetum]]<small> ([[User talk:Equisetum|talk]] &#124; [[Special:Contributions/Equisetum|contributions]])</small> 12:10, 17 October 2013 (UTC)
:{{ec}}'''What Equisetum said, more or less.''' - It's because you're using commercial vectors, so you pretty much have to use whatever antibiotic resistance is already built into the plasmid. Cloning out and replacing the antibiotic resistance gene in a bacterial expression vector is not particularly convenient, since the more useful restriction sites (places that restriction enzymes can cut the DNA) are near the multiple cloning site (where you put the gene), making it harder to actually excise the antibiotic resistance gene without accidentally ruining the construct. As a result, most people just stick with commercial pET vectors for expressing stuff in E.Coli, which means sticking with the more common antibiotics. If you accidentally damage the part of the plasmid with antibiotic resistance, then even the successfully transformed bacteria will die when you try to grow them on antibiotics. The whole reason for using these genes is that it forces your bugs (bacteria) to keep the plasmid you've given them or die, that way as long as you keep them on media with the appropriate antibiotic they have to express your protein of interest. <small>'''[[User:Protein Chemist|(+)H<sub>3</sub>N]]-[[Special:Contributions/Protein Chemist|Protein\Chemist]]-[[User_talk:Protein Chemist|CO<sub>2</sub>(-)]]'''</small> 11:09, 17 October 2013 (UTC)

== Bupropion: Elontril and Wellbutrin ==

Why has Glaxosmithkline two names for the same drug? I understand that Fluoxetine can be called Prozac or by other names, but these are from different companies. <span style="font-size: smaller;" class="autosigned">— Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/80.58.250.84|80.58.250.84]] ([[User talk:80.58.250.84|talk]]) 17:24, 16 October 2013 (UTC)</span><!-- Template:Unsigned IP --> <!--Autosigned by SineBot-->
:It may be region specific. While GSK "owns" the drug it gets marketed by different partners which may offer it under different brand names. [[User:Mrfrobinson|Mike]] ([[User talk:Mrfrobinson|talk]]) 17:50, 16 October 2013 (UTC)
::[http://www.merckmanuals.com/professional/lexicomp/bupropion.html Source][[User:Mrfrobinson|Mike]] ([[User talk:Mrfrobinson|talk]]) 17:50, 16 October 2013 (UTC)

::Right, it's region-specific. The name Wellbutrin is used in the US; Elontril is used in Europe. It might be worth noting though that Bupropion is actually sold by GSK under two different names even in the US alone: Wellbutrin and Zyban. The main difference is that the Wellbutrin formulation is intended as an antidepressant, whereas the Zyban formulation is intended to treat nicotine cravings. [[User:Looie496|Looie496]] ([[User talk:Looie496|talk]]) 18:19, 16 October 2013 (UTC)

== Lucid dreams ==

I'm quite interested in these sorts of things. Are there any particularly notable studies and/or papers I could read on [[lucid dreaming]]? Thanks! --[[User:Yellow1996|<span style="text-decoration: overline underline;">'''.Yellow1996.'''</span>]]<sup><small>([[User talk:Yellow1996|ЬMИED¡]])</small></sup> 18:21, 16 October 2013 (UTC)
:Not exactly a reliable source however does have some good information: [http://www.coasttocoastam.com/show/2013/09/10][[User:Mrfrobinson|Mike]] ([[User talk:Mrfrobinson|talk]]) 18:48, 16 October 2013 (UTC)

::Looks great (and anyone else is welcome to add what they find); thanks! :) --[[User:Yellow1996|<span style="text-decoration: overline underline;">'''.Yellow1996.'''</span>]]<sup><small>([[User talk:Yellow1996|ЬMИED¡]])</small></sup> 19:02, 16 October 2013 (UTC)

:[[Omni (magazine)|Omni Magazine]] published a Survey of lucid dreaming in April 1987 ([https://archive.org/details/omni-magazine-1987-04 Archived issue]). This link summarises the results: [http://library.macewan.ca/lucidity/LL%208%282%29%20dec%2089/OMART082.W50.htm]. --<span style="text-shadow:#FFD700 0.2em 0.2em 0.2em">[[User:Auric|<font color="#FC3700">'''Auric'''</font>]] [[User talk:Auric|<font color="#0C0F00">''talk''</font>]]</span> 19:17, 16 October 2013 (UTC)

::Cool - that one is really interesting. I'll read it in it's entirety soon. --[[User:Yellow1996|<span style="text-decoration: overline underline;">'''.Yellow1996.'''</span>]]<sup><small>([[User talk:Yellow1996|ЬMИED¡]])</small></sup> 19:28, 16 October 2013 (UTC)

== is it true you can peer into the distant past? ==

is it true you can peer into the distant past by looking up at the stars? what does that mean? how far in the past? [[Special:Contributions/212.96.61.236|212.96.61.236]] ([[User talk:212.96.61.236|talk]]) 21:42, 16 October 2013 (UTC)
:I don't even know how to answer this...no sorry! [[User:Mrfrobinson|Mike]] ([[User talk:Mrfrobinson|talk]]) 21:48, 16 October 2013 (UTC)
:The speed of light is finite so when you look at the nearest stars you see them as they were about four years ago, and distant galaxies can be seen as they were billions of years ago.
:What would be much more interesting is if they had huge mirrors and you could see what happened on earth eight or more years ago. They don't so we can't but hopefully aliens have recorded the Jack Benny Show or I Love Lucy or so we can enjoy them again. Even now aliens are recording and treasuring the The Rush Limbaugh Show or studying it in their equivalent media studies at university ;-) [[User:Dmcq|Dmcq]] ([[User talk:Dmcq|talk]]) 22:07, 16 October 2013 (UTC)

::<small>We recorded those shows ourselves, you know. [[User:StuRat|StuRat]] ([[User talk:StuRat|talk]]) 14:36, 17 October 2013 (UTC) </small>

*We know the distance to various stars and galaxies in light years. If [[Sirius]] is 12 light-years away it takes its light twelve years to get here. So when you look at it you are seeing it as it would have appeared 12 years ago to somebody in the same solar system as it. This applies to the [[Alpha Centauri]] system, which is just over 4 light years away, to the [[Andromeda Galaxy]], which is 2.5 million light years away. [[Betelgeuse]], which is in the process of dying, is 642 light years away. It may actually already have gone nova, but we just haven't seen it yet. [[User:Medeis|μηδείς]] ([[User talk:Medeis|talk]]) 22:14, 16 October 2013 (UTC)
:You can see into the very recent past by looking at your hand...the light that reaches your eyes is a couple of nanoseconds old - so you're seeing your hand as it was a teeny-tiny fraction of a second ago - not as it is "now". By extension, everything we see is somewhat delayed due to the time it takes the light from that object to reach us. Our other senses are delayed by even more than that. Sound waves travel at around 700 miles per hour - so if you can hear something happening a mile away, you're hearing it from about 5 seconds into the past. When the island of Krakatoa exploded, it was heard 3,000 miles away - and those people heard an event that had already happened four hours in their past! So yes, when you look out at the sky, you can see into the past. To pick a concrete example - on a dark night and with the naked eye, you can just about see [[SN 1054|the Crab supernova]] - and what you see is what was happening there 6,500 years ago when the pyramids were being build in Egypt. Nobody knows for sure what it looks like right now, and we won't know that for another 6,500 years. [[User:SteveBaker|SteveBaker]] ([[User talk:SteveBaker|talk]]) 22:43, 16 October 2013 (UTC)
::More prosaically, every time lightning flashes, you see it nearly instantaneously (some very small fraction of a second), while you hear the thunder a few seconds later - a handy gauge for estimating how far away the lightning is. And if you're some distance from a ball game, it's almost unnerving to see the batter hit the ball soundlessly, and then hear the crack of the bat as he's running toward first base. Seeing into the past, hearing from the past. ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 03:02, 17 October 2013 (UTC)
:You may want to try to spot M81 with the naked eye [http://messier.seds.org/xtra/supp/m81naked.txt see here for directions]. You will then look 11.8 million years back in time with the naked eye. [[User:Count Iblis|Count Iblis]] ([[User talk:Count Iblis|talk]]) 23:36, 16 October 2013 (UTC)
:Although you can't see it with the naked eye, the [[cosmic microwave background]] radiation was emitted around 380,000 years after the Big Bang. We study it to find out what was happening in the universe 13.8 billion years ago, before any stars or galaxies had formed. It's not possible to directly look back any farther than that, because the universe was not transparent at earlier times. --[[User:Amble|Amble]] ([[User talk:Amble|talk]]) 00:13, 17 October 2013 (UTC)
::Can things interact faster than the speed of light? If not, does "now" have any real meaning for distant objects? [[User:Card_Zero|<span style=" background-color:#fffff0; border:1px #995; border-style:dotted solid solid dotted;">&nbsp;Card&nbsp;Zero&nbsp;</span>]]&nbsp;[[User_talk:Card_Zero|(talk)]] 02:43, 17 October 2013 (UTC)
:::That's kind of the "God viewpoint", i.e. somehow being in more than one place at once. But speaking in mortal terms, if light took 4 years to get from Alpha Centauri to us, then we're seeing it as it was 4 years ago... and conversely, if some cognizant being is there and can see our sun, they're seeing it as it was 4 years ago. Barring some catastrophe in the interim, their "now" should be just as meaningful to them as our "now" is to us. Would they be exactly the same "now"? If you could have magically plunked down a pair of clocks, set to the same time, in both places 4 years ago, and then magically retrieved them from both places now, would they still be in sync? Maybe, maybe not. But they should be close enough for government work. ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 02:55, 17 October 2013 (UTC)
:::[[Andromeda paradox]]. [[User:Count Iblis|Count Iblis]] ([[User talk:Count Iblis|talk]]) 03:14, 17 October 2013 (UTC)

::: At least under the [[special theory of relativity]], the concept of ''now'' (ie, events happening at the same instant of time) makes sense in a fixed [[inertial frame of reference]]. However observers in different frames of reference need not agree on whether two spatially separated events occur simultaneously or not; so the concept of ''now'' is not absolute. See [[relativity of simultaneity]] for further details. [[User:Abecedare|Abecedare]] ([[User talk:Abecedare|talk]]) 03:16, 17 October 2013 (UTC)
::::That's an oversimplification though. If one has the relative accelerations one can choose a frame of reference and calculate a now relative to it. Of course you won't be similtaneously ''aware'' of things outside you light cone. But existence and awareness are two different things. [[User:Medeis|μηδείς]] ([[User talk:Medeis|talk]]) 03:48, 17 October 2013 (UTC)

:Yes, the universe is expanding. The rate of expansion and the speed of light is a [[Doppler]] phenomenon and is partly explained by the [[Hubble flow]] of the universe. Three dimensions is hard to visualize so a simpler model is to use a 2D model of the surface of a perfectly spherical balloon. If you image the light path between objects to great circles on the balloon, you will see that every point on the surface moves away from every other point as it inflates. The further the object, the faster it moves. As light has a constant velocity, this movement is reflected in a Doppler shift or commonly called the [[red shift]]. This is the way we measure distance to galaxies and stars as the frequency emmision of elements with zero relative velocity is known. The more the galaxy shifts to to longer wavelengths indicates that it is far away and moving away faster than nearer objects. The farther away it is, the older the system we see and therefore the farther back in time. It's fallacy, though to say we are "looking back in time" because there is no universal frame of reference (which point on the surface of the perfectly spherical balloon is the center?) We will never look back in time to our own sun, rather it is a measure of distance. It's 8 light-minutes away. For far away galaxies, it's more like saying the time difference and the spatial difference do not vary by the same amount through theories of relativity. They are moving away in time from the big bang just as we are but the speed and distance makes it look like they are closer to the big bang than we are., --[[User:DHeyward|DHeyward]] ([[User talk:DHeyward|talk]]) 09:55, 17 October 2013 (UTC)
::If something happens on the sun, we see it 8 minutes later. Logic says we're looking back in time, i.e. we're seeing something that happened 8 minutes ago. ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 13:14, 17 October 2013 (UTC)
:::Ah, that's presuming you can be on the sun and the earth and observe both emission and observation and measure it. You cannot. Really there is only your "now" and everything else is a distance to you. Now matter how far you look, you cannot see yourself yesterday. I understand we separate time and space as a perception but for the most part, when we look at far away galaxies, we are looking at the newest parts of the universe as it expands. Our frame of reference is that we are always the oldest frame in the universe. It's like asking whether the earth is rotating around the sun or moving in a straight line in a curved space. We appear to pass the same point every 365 days but is that true? --[[User:DHeyward|DHeyward]] ([[User talk:DHeyward|talk]]) 16:21, 17 October 2013 (UTC)

== Quantum Relative Entropy ==

Is the quantum relative entropy between two pure states always either zero or infinity? <span style="font-size: smaller;" class="autosigned">— Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/81.155.161.54|81.155.161.54]] ([[User talk:81.155.161.54|talk]]) 21:58, 16 October 2013 (UTC)</span><!-- Template:Unsigned IP --> <!--Autosigned by SineBot-->
:Yes, if I'm understanding [[Quantum relative entropy#Non-finite relative entropy]] correctly. [[User:Red Act|Red Act]] ([[User talk:Red Act|talk]]) 00:00, 17 October 2013 (UTC)

= October 17 =

== Second opinion ==

[http://www.newscientist.com/article/dn24411-light-can-break-newtons-third-law--by-cheating.html#.Ul8yGnX2_IU '''Light can break Newton's third law – by cheating''']

Can I justify believing the veracity of the claims made by this experiment.? [[User:Plasmic Physics|Plasmic Physics]] ([[User talk:Plasmic Physics|talk]]) 00:49, 17 October 2013 (UTC)

:You can read the claims made by Ulf himself in [http://prl.aps.org/pdf/PRL/v110/i19/e193901 his paper]. It's rather beyond me, honestly, but he makes no claims about violating the laws of physics. And I wouldn't trust anything you read on New Scientist anyway. [[User:Someguy1221|Someguy1221]] ([[User talk:Someguy1221|talk]]) 01:02, 17 October 2013 (UTC)

::I mean, how falsifiable are his claims, and do they stand up to scientific scrutiny? [[User:Plasmic Physics|Plasmic Physics]] ([[User talk:Plasmic Physics|talk]]) 01:10, 17 October 2013 (UTC)

:::So far as I can tell, his claims are eminently falsifiable. Unlike earlier theoretical works regarding [[diametric drive]]s, Ulf's does not require any exotic materials to function (it also doesn't necessarily do anything useful). Anyone with the right expertise and resources should be able to build it, though since I do not have the expertise I have no idea how difficult that would prove. It's worth noting that this was published in ''[[Physical Review Letters]]'', which is considered one of the most prestigious journals devoted to physics. So it is a given that this work was reviewed by several independent experts prior to publication. [[User:Someguy1221|Someguy1221]] ([[User talk:Someguy1221|talk]]) 01:24, 17 October 2013 (UTC)

:Yes, it's falsifiable, and I see no reason to doubt that the experimental realization was as reported. Note that even in the science-fiction scenario of a negative-mass diametric space drive, you're still not really violating Newton's third law. Instead, it's the consequence of applying Newton's laws to something with negative mass. The idea of breaking Newton's third law seems to have been introduced in the New Scientist report rather than the article itself. --[[User:Amble|Amble]] ([[User talk:Amble|talk]]) 05:42, 17 October 2013 (UTC)

:I don't see how it happens. The objective appears to want to create a mass difference between two objects. But conservation of energy still applies. There is no such thing as a "rest mass of light." It's not zero. If there is a frequency, it has energy and mass. If it doesn't, it's not light. I can almost grasp a situation where a mass imbalance occurs between the front and rear of a spacecraft but not as a free energy + mass on one side and - mass on the other based on an interference pattern. Maybe a massive amount of light forced into a material withe significant dielectric differences fore and aft but that would just recenter the center of mass and it would return when the beam was stopped. --[[User:DHeyward|DHeyward]] ([[User talk:DHeyward|talk]]) 10:28, 17 October 2013 (UTC)
::The overall conclusion seems to be "something that behaves mathematicaly similar to mass, but allows some probably impossible things (negative mass), behaves as we would expect that impossible thing to behave". As far as I can tell, the "drive" effect is only on the propagation speed of the light pulses, with no effect on the material itself. [[User:MChesterMC|MChesterMC]] ([[User talk:MChesterMC|talk]]) 12:33, 17 October 2013 (UTC)

== Why do people tie off their arms when shooting up? ==

Thanks. [[User:Medeis|μηδείς]] ([[User talk:Medeis|talk]]) 01:03, 17 October 2013 (UTC)

:The most obvious reason to me, would be to find a good vein. [[User:Plasmic Physics|Plasmic Physics]] ([[User talk:Plasmic Physics|talk]]) 01:08, 17 October 2013 (UTC)

::Yes, it makes the veins pop up a bit. That's standard procedure at my clinic when they need to draw a blood sample. ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 02:18, 17 October 2013 (UTC)

:::That makes sense. I had thought maybe it had to do with preventing the drug from entering the bloodstream while they were busy injecting it. [[User:Medeis|μηδείς]] ([[User talk:Medeis|talk]]) 02:22, 17 October 2013 (UTC)
::::They used to tell us in school that the addict would let some blood come into the syringe chamber to dilute the heroin slightly, before injecting the whole mess into the arm. Thankfully, I have no first hand (or arm) knowledge of that process. But it fits with tying off the arm to make the veins pop up and to initially draw blood before injecting it back into the vein. ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 02:37, 17 October 2013 (UTC)
:::::[[Intravenous therapy#Hypodermic needle]] mentions the practice of pulling up a bit of blood as a way to verify that the needle is actually in a vein. [[User:DMacks|DMacks]] ([[User talk:DMacks|talk]]) 06:10, 17 October 2013 (UTC)
::::::Yer but just remember to release the pressure before you actually inject all you junky scumbags! :-) [[User:Die Antwoorde|Die Antwoorde]] ([[User talk:Die Antwoorde|talk]]) 07:35, 17 October 2013 (UTC)
:::::::"Only dopes use dope." ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 13:11, 17 October 2013 (UTC)
:Apparently, [[http://www.drugs-forum.com/forum/showthread.php?t=73754 they don't always do it.]] [[User:OsmanRF34|OsmanRF34]] ([[User talk:OsmanRF34|talk]]) 11:16, 17 October 2013 (UTC)
::::::::This came up because of the ltest episode of Homeland, and wasn't meant as a venue for bashing people. [[User:Medeis|μηδείς]] ([[User talk:Medeis|talk]]) 16:25, 17 October 2013 (UTC)

== Fish tank ==
:Hi! I’m back again one more time… last days I pass by this little country hotel that have an awesome aquarium in the lobby and watching the fishes made me remember when I was a kid and have lot of fishes in tiny fishbowls… so one thing came after another and somehow I finished buying a couple of glasses and wow… it seems that I’m going to make a fish tank for my living room… of course it wouldn’t be as large as the one in the hotel, but I don’t know if, at my intended dimensions, the vertical water column pressure effect could be an important issue to consider.
: my question is: how can I calculate the pressure that the glass and the glue/sealant will have to hold?
:I know how to get the average pressure of the whole tank, but my principal concern is in the stress concentration at lower part of it
: I’m thinking in something like 145cm width by 60 cm height by 50 cm depth more or less
: thanks!!
:[[Special:Contributions/201.220.215.14|201.220.215.14]] ([[User talk:201.220.215.14|talk]]) 05:07, 17 October 2013 (UTC)
::Go to your local pet supply shop and buy one that's already properly constructed. ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 13:09, 17 October 2013 (UTC)
::Seconding Bugs. Apart from any questions of sufficient mechanical strength, how do ''you'' know what glues and sealants, which will be in contact with the water, ''will'' or ''will not'' have a poisonous effect on the plants, fish etc in the tank? {The poster formerly known as 87.81.230.195} [[Special:Contributions/212.95.237.92|212.95.237.92]] ([[User talk:212.95.237.92|talk]]) 13:50, 17 October 2013 (UTC)
:Haha… no no I already bought the glasses, and besides let’s assume that here there isn’t anything like a “pet supply shop” plus building up the thing is part of the fun…
: isn’t any physic or math formula that allow you to obtain the pressure in the edges of the tank?
:the seller told me that the glass will hold up for that dimensions, my major concern is for the glue
:the glue will be something silicon based
:[[User:Iskander HFC|Iskánder Vigoa Pérez]] ([[User talk:Iskander HFC|talk]]) 13:59, 17 October 2013 (UTC)

:P = ρgh. Where rho is defined as the density of water at a desired temperature, g is gravitational acceleration (choose standard or local), and h is the depth of water measured from the surface. This will yield the pressure as a function of depth. [[User:Plasmic Physics|Plasmic Physics]] ([[User talk:Plasmic Physics|talk]]) 14:09, 17 October 2013 (UTC)

::While I agree that it seems odd to try to build an aquarium yourself, I will try to answer as best I can. Some thoughts:

::1) You said you only bought 2 sheets of glass ? The usual aquarium has glass on 5 of the 6 sides. Do you intend to put something other than glass on the bottom and 2 of the sides ? Or do you intend to try to cut the glass yourself ? And do you have a lid ?

::2) The pressure will be solely based on the depth of the water. However, you also need to consider that the glass will tend to bow out more, the greater the area over which the pressure is applied.

::3) I suggest you add a physical support at the bottom, like a wooden frame to hold it all together. Then the load on the adhesive will be far less. Here's a top view of what I have in mind:

+---+-----------------------+---+
| | WOOD | |
| +-----------------------+ |
| W | | W |
| O | AQUARIUM | O |
| O | | O |
| D | | D |
| +-----------------------+ |
| | WOOD | |
+---+-----------------------+---+

::You might also extend the wooden frame to have vertical posts along each of the 4 edges, and a repeat of the bottom wooden form at the top. Wood is far easier to work with than glass, and doesn't shatter if you mess up. [[User:StuRat|StuRat]] ([[User talk:StuRat|talk]]) 14:18, 17 October 2013 (UTC)

:::Not that it's any of my business, as it's your project - but isn't the kind of question an engineer would ask ''before'' buying the glass? ←[[User:Baseball Bugs|Baseball Bugs]] <sup>''[[User talk:Baseball Bugs|What's up, Doc?]]''</sup> [[Special:Contributions/Baseball_Bugs|carrots]]→ 15:18, 17 October 2013 (UTC)
::: the man that sold me the glass told me that it would support the pressure and give me total warranty, the glass is almost 8mm, now I’ll buy the glue, so I’m asking
:::[[User:Iskander HFC|Iskánder Vigoa Pérez]] ([[User talk:Iskander HFC|talk]]) 15:58, 17 October 2013 (UTC)
: thanks… that’s exactly the formula I was looking for
: stu, I have the total glass area and know a man that will cut into the five rectangles that I need
: thanks for the answers
:[[User:Iskander HFC|Iskánder Vigoa Pérez]] ([[User talk:Iskander HFC|talk]]) 15:58, 17 October 2013 (UTC)

== Good scholarly sources ==

Are Razib Khan and Dienekes Pontikos blog good sources when it comes to human race classification? <span style="font-size: smaller;" class="autosigned">— Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/70.31.154.71|70.31.154.71]] ([[User talk:70.31.154.71|talk]]) 08:57, 17 October 2013 (UTC)</span><!-- Template:Unsigned IP --> <!--Autosigned by SineBot-->
:Blogs are not considered as reliable sources on Wikipedia unless written by people who are acknowledged experts in the field or are under editorial control. See [[WP:RS]]. [[User:Dmcq|Dmcq]] ([[User talk:Dmcq|talk]]) 09:17, 17 October 2013 (UTC)
::Dienekes and Razib Khan are both experts <span style="font-size: smaller;" class="autosigned">— Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/70.31.154.71|70.31.154.71]] ([[User talk:70.31.154.71|talk]]) 09:29, 17 October 2013 (UTC)</span><!-- Template:Unsigned IP --> <!--Autosigned by SineBot-->
:::You seem to have decided already that they are "experts". This is [http://s1.zetaboards.com/anthroscape/topic/4107532/1/ highly debatable] - see also [http://mcclernan.blogspot.co.uk/2013/01/razib-khan-and-his-favorite-euphemism.html this]. The idea that "human race classification" is a matter for a Science reference desk - when so much is based on social and cultural factors - is itself somewhat dubious. [[User:Ghmyrtle|Ghmyrtle]] ([[User talk:Ghmyrtle|talk]]) 10:04, 17 October 2013 (UTC)
:Razib Khan seems to get a little bit respectability since his blog is hosted by Discovery Channel. He also has been cited thoroughly through out Wikipedia.[[User:OsmanRF34|OsmanRF34]] ([[User talk:OsmanRF34|talk]]) 11:27, 17 October 2013 (UTC)
:::Thanks for help, turns out neither are actually experts, and no one even knows Dienekes identity. Razib Khan does have some academic background but his science seems to be criticized a lot <span style="font-size: smaller;" class="autosigned">— Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/70.31.154.71|70.31.154.71]] ([[User talk:70.31.154.71|talk]]) 15:43, 17 October 2013 (UTC)</span><!-- Template:Unsigned IP --> <!--Autosigned by SineBot-->

== Drinking coke ==

As I understand correctly, 100 years ago, the favorite route of administration of cocaine was drinking it. Today it seems to be snorting it. Why the shift? [[User:OsmanRF34|OsmanRF34]] ([[User talk:OsmanRF34|talk]]) 11:25, 17 October 2013 (UTC)

: See [[nasal administration]]. It's faster, bypasses irrelevant organs that would try to ''digest'' the drug, and can also bypass the blood-brain barrier because the nose has a specially close connection to the brain. (This doesn't really answer why they didn't try snorting it in the first place, as was already done with snuff. Lack of imagination?) [[User:Card_Zero|<span style=" background-color:#fffff0; border:1px #995; border-style:dotted solid solid dotted;">&nbsp;Card&nbsp;Zero&nbsp;</span>]]&nbsp;[[User_talk:Card_Zero|(talk)]] 12:01, 17 October 2013 (UTC)

:One important factor is that it was originally used as a medicine, not a recreational drug. ([[Coca-Cola]] was originally a weak concentration of cocaine mixed with cola, sold in syrup form, as a medication.) In that case, you want the slow release you get from the digestion process, not the quick release from snorting it. Indeed, if people didn't figure out that they could get high from refining it further and snorting it, cocaine might still be used as a med today. Also note that heroine and several other illegal recreational drugs also were used as medications originally. [[User:StuRat|StuRat]] ([[User talk:StuRat|talk]]) 14:25, 17 October 2013 (UTC)
::What do they put it the fancy energy drinks these days??[[Special:Contributions/122.111.240.138|122.111.240.138]] ([[User talk:122.111.240.138|talk]]) 15:55, 17 October 2013 (UTC)

== Megawats, generating capacity and consumption ==

A small West African country is said to have 90-100 MW installed generating capacity. There is a proposed bio-fuels project which will grow suger cane, produce ethanol, and use the ethanol to produce 30 MW of electricity, offering 15 MW for sale back to the national grid, and using the other 15 MW for the ethanol plant and related local installations. If I understand, the entire country now uses less than 100 MW. One project can increase production by 30%, but requires 15% of what the entire national grid produces and consumes, just to run the one project (of 12,000 hectares) producing 85,000 cubic metres of ethanol for export. Does that make sense? Are these numbers credible? Thanks if you can make this more understandable. <span style="font-size: smaller;" class="autosigned">— Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/193.173.50.222|193.173.50.222]] ([[User talk:193.173.50.222|talk]]) 12:09, 17 October 2013 (UTC)</span><!-- Template:Unsigned IP --> <!--Autosigned by SineBot-->

:One thing to keep in mind is that it always takes more energy to produce a fuel than you get from it. However, in this case, one of the biggest energy inputs is the sunlight used to grow the sugar cane, so it might be reasonable to expect that the rest of the refining process would take half of the energy produced. I am skeptical, though, that this process is the optimal use of the land and sunlight. Selling the sugar cane instead, or some other crop, might very well make more financial sense. You could also place solar panels there instead, to create electricity directly. However, solar panels are a rather low efficiency way to make electricity, too. [[User:StuRat|StuRat]] ([[User talk:StuRat|talk]]) 14:33, 17 October 2013 (UTC)

Thanks.I'm sure I wasn't very clear when I put the question. I'm trying to understand if it is credible that one biofuel factory could be using 15 MW for its activities, while the entire country (Sierra Leone) presently makes due with less than 100 MW. I would think, even in a country with very low generating capacity, that one factory could only use 1%, or a fraction of a percent of all the electricity being used in the entire country. But I don't know much about electricity, (or ethanol production) ... so I was looking for some insight on that. I'm skeptical of the claims, numbers, publicly stated plans of the biofuel investors. Thanks for anyone who has additional information. <span style="font-size: smaller;" class="autosigned">— Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/193.173.50.222|193.173.50.222]] ([[User talk:193.173.50.222|talk]]) 16:06, 17 October 2013 (UTC)</span><!-- Template:Unsigned IP --> <!--Autosigned by SineBot-->

Latest revision as of 08:01, 25 December 2024

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December 13

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What is the most iconic tornado photo

[edit]
Request for opinions
The following discussion has been closed. Please do not modify it.

What photo of a tornado would you say is the most iconic? I'm researching the history of tornado photography for an eventual article on it and I've seen several specific tornadoes pop up over and over again, particularly the Elie, Manitoba F5 and the "dead man walking" shot of the Jarrel, Texas F5. Which would be considered more iconic? ApteryxRainWing🐉 | Roar with me!!! | My contributions 17:21, 13 December 2024 (UTC)[reply]

At the top of this page is a bullet point stating "We don't answer requests for opinions, predictions or debate": this reads to me like a request for subjective opinions. Perhaps you would like to consider what quantifiable and referenceable metric would answer what you want to know?
Presumably you also want only real tornadoes considered? Otherwise some might nominate the the twister from The Wizard of Oz, or from more recent tornado-related movies – Sharknado, anyone? :-). {The poster formerly known as 87.81.230.195} 94.1.223.204 (talk) 18:07, 13 December 2024 (UTC)[reply]
"Swegle Studios" has a couple of YouTube videos dedicated to the backstories of famous tornado photos and video; you might find them useful in your research. Photos, Videos. Matt Deres (talk) 18:40, 13 December 2024 (UTC)[reply]
I googled "most iconic tornado photo" and a bunch of different possibilities popped up. I don't see how you could say that any given photo is the "most iconic". ←Baseball Bugs What's up, Doc? carrots18:57, 13 December 2024 (UTC)[reply]


December 15

[edit]
possible w:Polygala myrtifolia in New South Wales Australia

Did I get species right? Thanks. Gryllida (talk, e-mail) 06:56, 15 December 2024 (UTC)[reply]

related: https://species.wikimedia.org/wiki/Wikispecies:Village_Pump#help_to_identify_species Gryllida (talk, e-mail) 06:57, 15 December 2024 (UTC)[reply]
FWIW, I can't detect any visible differences between the plant in this photo and the ones illustrated in the species and the genus articles. However, the latter makes it clear that Polygala is a large genus, and is cultivated, with hybrids, so it's possible that this one could be a close relative that differs in ways not visible here, such as in the bark or roots. That may or may not matter for your purposes. {The poster formerly known as 87.81.230.195} 94.1.223.204 (talk) 10:11, 15 December 2024 (UTC)[reply]

How to address changes to taxonomy

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Hi all, I am a biology student brand new to wiki editing who is interested in cleaning up small articles/stubs for less known taxa. One that I've encountered is a mushroom that occurs in the pacific northwest (Fomitopsis ochracea). The article mentions that this fungus is occasionally mistaken for another fungus, Fomitopsis pinicola.

However, the issue I've run into is that F. pinicola used to be considered a single species found around the world, but relatively recently was split into a few different species. The original name was given to the one that occurs in Europe, and the one in the pacific northwest (and thus could be mistaken for F. ochracea) was given the name Fomitopsis mounceae.

The wiki page says

Historically, this fungus has been misidentified as F. pinicola. When both species are immature, they can look very similar, but can be distinguished by lighting a match next to the surface of the fungus.[1] F. pinicola will boil and melt in heat, while F. ochracea will not.[1]


Since the source says pinicola (as likely do most/all other sources of this info given the change was so recent), and since technically it's true that they used to be mistaken for it... what would be the most appropriate way to modernize that section?

My questions are: Should I replace F. pinicola with F. mounceae? Or is that wrong because the source doesn't refer to it by that name? Would it be better to write something like (now known as/considered F. mounceae) next to the first mention of the species? Or is that a poor choice because it implies all the members of F. pinicola were renamed F. mounceae?

Any advice on how to go about updating this section is incredibly appreciated
TheCoccomycesGang (talk) 10:21, 15 December 2024 (UTC)[reply]

First, take these sorts of questions to the relevant Wikiproject, in this case Wikipedia talk:WikiProject Fungi. I am not as familiar with the consensus at WP:FUNGI, but it seems like they defer to Species Fungorium/Index Fungorium and Mycobank to decide. Those sources presently seem to consider Fomitopsis pinicola a good species. Also, be careful about "replacing", there are rules to ensure the continuity of the article history. By the way, there is a hilarious but unencyclopedic/copyvio recipe appended to the Fomitopsis mounceae article. Abductive (reasoning) 11:09, 15 December 2024 (UTC)[reply]
Thanks for the tips, I didn't know about projects so I'll go read up on that. And thanks for the warnings about replacing things. I've been reading a lot of help pages, but I'm still in the process of learning the all conventions and what mechanics break if you do things the wrong way.
I actually saw the recipe ages ago before I made my account and completely forgot about it... it was one of many things that prompted me to get into wiki editing. TheCoccomycesGang (talk) 23:12, 15 December 2024 (UTC)[reply]

Does stopping masturbation lead to sperm DNA damage?

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I'm looking for information on the potential link between the frequency of ejaculation (specifically through masturbation) and sperm DNA damage. I've come across some conflicting information and would appreciate it if someone could point me towards reliable scientific studies or reviews that address this topic.

Specifically, I'm interested in whether prolonged periods of abstinence from ejaculation might have any negative effects on sperm DNA integrity. Any insights or links to relevant research would be greatly appreciated. HarryOrange (talk) 17:08, 15 December 2024 (UTC)[reply]

Only males may abstain from sperm-releasing Masturbation that serves to flush the genital tract of old sperm that in any case will eventually dissipate. No causal relationship between masturbation and any form of mental or physical disorder has been found but abstinence may be thought or taught1 2 3 to increase the chance of wanted conception during subsequent intercourse. Philvoids (talk) 00:51, 16 December 2024 (UTC)[reply]
There's many rumors about that topic. One is that not ejaculating frequently increases the risk of developing prostate cancer. Abductive (reasoning) 01:02, 16 December 2024 (UTC)[reply]
Nothing really conclusive but there's some evidence that short periods are associated with lower DNA fragmentation, see
  • Du, Chengchao; Li, Yi; Yin, Chongyang; Luo, Xuefeng; Pan, Xiangcheng (10 January 2024). "Association of abstinence time with semen quality and fertility outcomes: a systematic review and dose–response meta‐analysis". Andrology. 12 (6): 1224–1235. doi:10.1111/andr.13583. ISSN 2047-2919.
  • Hanson, Brent M.; Aston, Kenneth I.; Jenkins, Tim G.; Carrell, Douglas T.; Hotaling, James M. (16 November 2017). "The impact of ejaculatory abstinence on semen analysis parameters: a systematic review". Journal of Assisted Reproduction and Genetics. 35 (2): 213. doi:10.1007/s10815-017-1086-0. ISSN 2047-2919. PMC 5845044. PMID 29143943.
  • Ayad, Bashir M.; Horst, Gerhard Van der; Plessis, Stefan S. Du; Carrell, Douglas T.; Hotaling, James M. (14 October 2017). "Revisiting The Relationship between The Ejaculatory Abstinence Period and Semen Characteristics". International Journal of Fertility & Sterility. 11 (4): 238. doi:10.22074/ijfs.2018.5192. ISSN 2047-2919. PMC 5641453. PMID 29043697.
for example. Alpha3031 (tc) 02:12, 16 December 2024 (UTC)[reply]
Mature sperm cells do not have DNA repair capability.[1] Inevitably, as sperm cells get older, they will naturally and unavoidably be subject to more and more DNA damage. Obviously, freshly produced spermatozoa will, on average, have less DNA damage. It is reasonable to assume that the expected amount of damage is proportional to the age of the cells, which is consistent with what studies appear to find. Also, obviously, the more the damage is to a spermatozoon fertilizing an oocyte, the larger the likelihood that the DNA repair in the resulting zygote, which does have DNA repair capability, will be incomplete. The studies I've looked at did not allow me to assess how much this is of practical significance.  --Lambiam 09:40, 16 December 2024 (UTC)[reply]

December 16

[edit]

Thanks to those who answered my last question, I think it should be added to a disambiguation page. If anyone wants to help me write that, reach out.

A sandpile seems disorganized and inert, but these are critically self-organizing. Do the frequency and size of disturbances on sand dunes and snowy peaks follow power law distribution? Gongula Spring (talk) 01:18, 16 December 2024 (UTC)[reply]

Shouldn't this be at the Math Desk? Abductive (reasoning) 05:12, 16 December 2024 (UTC)[reply]
If the question is not about the model mentioned in the heading but about the physical properties of sand dunes and snowy peaks, this here is the right section of the Reference desk.  --Lambiam 08:51, 16 December 2024 (UTC)[reply]
I await a non-mathematical answer. Abductive (reasoning) 09:23, 16 December 2024 (UTC)[reply]
It depends is probably a fairly reasonable non-mathematical answer for these kinds of systems. For sand dunes anyway, sometimes avalanche frequency is irregular and the size distribution follows a power law, and sometimes it's close to periodic and the avalanches span the whole system. It seems there are multiple regimes, and these kinds of systems switch between them. Sean.hoyland (talk) 09:35, 16 December 2024 (UTC)[reply]
Thank you! I'm impressed this seems so casual, but surely you read this somewhere that might have a URL?
Gongula Spring (talk) 22:29, 19 December 2024 (UTC)[reply]
Hi, this is an interesting and somewhat open question! A lot of work is done on these models but much less on careful analyses of real dunes. I did find this dissertation that is freely accessible and describes some physical experiments and how well they fit various models. The general answer seems to be that the power law models are highly idealized, and determining the degree to which any real system's behavior is predicted by the model ahead of time is very difficult. Update: This is one of the earlier important works on the topic and it does include discussion of how well the model fits experiments.SemanticMantis (talk) 17:21, 16 December 2024 (UTC)[reply]
That dissertation is great!
Gongula Spring (talk) 22:30, 19 December 2024 (UTC)[reply]

Polar night

[edit]

Are there any common or scientific names for types of polar night? The types that I use are:

  • polar night - meaning a day when sun's altitude remains below horizon entire day (there is no daylight at solar noon, only civil twilight), occurring poleward from 67°24′ north or south
  • civil polar night - meaning a day when sun's altitude remains below -6° entire day (there is no civil twilight at solar noon, only nautical twilight), occurring poleward from 72°34′ north or south
  • nautical polar night - meaning a day when sun's altitude remains below -12° entire day (there is no nautical twilight at solar noon, only astronomical twilight), occurring poleward from 78°34′ north or south
  • astronomical polar night - meaning a day when sun's altitude remains below -18° entire day (there is no astronomical twilight at solar noon, only night), occurring poleward from 84°34′ north or south

These names were changed on Polar night article, and I wnat to know whether these named I listed are in use in any scientific papers, or in common language. (And I posted that question here and not in language desk because I think that this is not related to language very tightly.) --40bus (talk) 18:56, 16 December 2024 (UTC)[reply]

Some definitions at The Polar Night (1996) from the Aurora Research Institute. Alansplodge (talk) 22:55, 16 December 2024 (UTC)[reply]
These seem to be generalizable as: X polar night is a period, lasting not less than 24 hours, during which the sun remains below the horizon and there is no X twilight. The specific definitions depend then on the specific definitions of civil/nautical/astronomical twilight. These can be defined with a subjective observational standard or with an (originally experimentally determined) objective standard.  --Lambiam 10:36, 17 December 2024 (UTC)[reply]
FWIW, I as a former amateur astronomer have never previously thought about the question of Polar twilight and night nomenclatures, but immediately and completely understood what the (previously unencountered) terms used in the query must mean without having to read the attached descriptions. {The poster formerly known as 87.81.230.195} 94.1.223.204 (talk) 16:34, 17 December 2024 (UTC)[reply]

December 17

[edit]

differential equations with complex coefficients

[edit]

In an intro ODE class one basically studies the equation where x is a real vector and A is a real matrix. A typically has complex eigenvalues, giving a periodic or oscillating solution to the equation. That is very important in physics, which has various sorts of harmonic oscillators everywhere. If A and x are complex instead of real, mathematically the ODE theory works out about the same way. I don't know what happens with PDE's since I haven't really studied them.

My question is whether the complex case is important in physics the way the real case is. Can one arrive at it through straightforward coordinate transformations? Do the complex eigenvalues "output" from one equation find their way into the "input" of some other equation? Does the distance metric matter? I.e. in math and old-fashioned physics we use the Euclidean metric, but in realtivity one uses the Minkowski metric, so I'm wondering if that leads to complex numbers. This is all motivated partly by wondering where all the complex numbers in quantum mechanics come from. Thanks. 2601:644:8581:75B0:0:0:0:DA2D (talk) 22:54, 17 December 2024 (UTC)[reply]

Perhaps I don't understand what you are getting at but simple harmonic motion is xdot=j*w*x where w is angular frequency and j is i Greglocock (talk) 00:35, 18 December 2024 (UTC)[reply]
If PDEs count, the Schrödinger equation and the Dirac equation are examples of differential equations in the complex domain. A linear differential equation of the form on the complex vector space can be turned into one on the real vector space . For a very simple example, using the equation can be replaced by
 --Lambiam 01:11, 18 December 2024 (UTC)[reply]
Shouldn't this be at the Math Desk? It almost seems like the IP could be trolling, given the same question just above. Abductive (reasoning) 14:49, 18 December 2024 (UTC)[reply]
The question whether the complex case is important in physics the way the real case is, is not a maths issue. IMO the Science section is the best choice. I do not see another post that asks the same or even a related question.  --Lambiam 21:51, 18 December 2024 (UTC)[reply]
Just as above, I await a non-mathematical answer to this question. Abductive (reasoning) 07:01, 19 December 2024 (UTC)[reply]

Thanks all. Greglocock, your SHO example is 1-dimensional but of course you can have a periodic oscillator (such as a planetary orbit) in any orientation in space, you can have damped or forced harmonic oscillators, etc. Those are all described by the same matrix equation. The periodic case means that the matrix eigenvalues are purely imaginary. The damped and forced cases are where there is a real part that is negative or positive respectively. Abductive, of course plenty of science questions (say about how to calculate an electron's trajectory using Maxwell's equations) will have mathematical answers, and the science desk is clearly still the right place for them, as they are things you would study in science class rather than math class. Lambiam, thanks, yes, PDE's are fine, and of course quantum mechanics uses complex PDE's. What I was hoping to see was a situation where you start out with real-valued DEs in some complicated system, and then through some coupling or something, you end up with complex-valued DEs due to real matrices having complex eigenvalues. Also I think the Minkowski metric can be treated like the Euclidean one where the time coordinate is imaginary. But I don't know how this really works, and Wikipedia's articles about such topics always make me first want to go learn more math (Lie algebras in this case). Maybe someday. 2601:644:8581:75B0:0:0:0:DA2D (talk) 07:25, 19 December 2024 (UTC)[reply]

December 18

[edit]

Why don't all mast radiators have top hats?

[edit]

Our mast radiator article describes a device called a "top hat" which increases the range for mast radiators that can't be built tall enough.

So, why would you bother building a mast radiator without a top hat? Couldn't you just build it shorter with the top hat, and save steel? Marnanel (talk) 15:00, 18 December 2024 (UTC)[reply]

The main source cited in our article states, "Top loading is less desirable than increased tower height but is useful where towers must be electrically short due to either extremely low carrier frequencies or to aeronautical limitations. Top loading increases the base resistance and lowers the capacitive base reactance, thus reducing the Q and improving the bandwidth of towers less than 90° high."[2] If "reducing the Q" is an undesirable effect, this is a trade-off design issue in which height seems to be favoured if circumstances permit.  --Lambiam 21:41, 18 December 2024 (UTC)[reply]

Name of our solar system

[edit]

Is our star system officially called "Sol", or is that just something that came from science fiction and then became ubiquitous? 146.90.140.99 (talk) 22:06, 18 December 2024 (UTC)[reply]

It's called the Solar System, and its star is called Sol, from Latin via French. Hence terms like "solstice", which means "sun stands still" in its apparent annual "sine wave" shaped path through the sky. ←Baseball Bugs What's up, Doc? carrots23:31, 18 December 2024 (UTC)[reply]
Via French? According to the OED, it came direct from Latin.[3]  --Lambiam 11:45, 19 December 2024 (UTC)}}[reply]
Old French plus Latin.[4]Baseball Bugs What's up, Doc? carrots14:25, 19 December 2024 (UTC)[reply]
Also in Old French, the word meaning "sun" was soleil.  --Lambiam 23:42, 19 December 2024 (UTC)[reply]
Let's say [citation needed] to that claim. The star is indeed called Sol if you're speaking Latin, but in English it's the Sun (or sun). Of course words like "solar" and "solstice" derive from the Latin name, but using "Sol" to mean "the Sun" does seem to be something from science fiction. --142.112.149.206 (talk) 06:04, 19 December 2024 (UTC)[reply]
"Sol" is occasionally used to mean the Sun by astronomers. I feel like it is used in contexts where it is necessary to distinguish our experience with the Sun here on Earth, such as sunsets, from more "sterile" aspects of the Sun one might experience off the Earth. Abductive (reasoning) 08:56, 19 December 2024 (UTC)[reply]
Being an astronomer myself, I don't think I've ever heard anyone use "Sol" outside of a science fiction context. --Wrongfilter (talk) 09:06, 19 December 2024 (UTC)[reply]
Scientific articles that use the term Sol; Development of the HeliosX mission analysis code for advanced ICF space propulsion and Swarming Proxima Centauri: Optical Communication Over Interstellar Distances. These are rather speculative but as I mentioned, the usage is for off-planet situations. Abductive (reasoning) 13:05, 19 December 2024 (UTC)[reply]
Using Sol, Terra and Luna to refer to the Sun, Earth and Moon only happens if you write your entire article in Latin and in science fiction, not in regular science articles. They are capitalised though. Just as people write about a galaxy (one of many) or the Galaxy (the Milky Way Galaxy, that's our galaxy). The Solar System is also capitalised. PiusImpavidus (talk) 10:38, 19 December 2024 (UTC)[reply]
The article says "Sol" is the "personification" of the sun. Google Image the term "old Sol" and you'll see plenty of images of the sun with a face, not just Sci-Fi stuff. And "Luna" is obviously the basis for a number of words not connected with Sci-Fi. Lunar orbit, lunar module, etc. And the term "terra firma" has often been used in everyday usage. ←Baseball Bugs What's up, Doc? carrots11:34, 19 December 2024 (UTC)[reply]
And yet, if you ask 1,000 people "What's that big yellow thing up in the sky called?", you'll get 1,000 "the Sun"s and zero "Sol"s. Yes, in specialised contexts, Sol is used; but that doesn't justify saying our solar system's star "is called Sol" without any qualification, as if that were the normal, default term. It's not. -- Jack of Oz [pleasantries] 12:16, 19 December 2024 (UTC)[reply]
And after you've gotten that response, ask them why it isn't the "Sunner System". And why a sun room attached to a house isn't called a "sunarium". And why those energy-gathering plates on some roofs are not called "sunner panels". ←Baseball Bugs What's up, Doc? carrots14:22, 19 December 2024 (UTC)[reply]
What does that have to do with anything? The question was 'Is our star system officially called "Sol"?' (my emphasis). The answer is it is not. And that does not preclude other terms being derived from Latin sol (or, often enough, from Greek helios), nobody denies that, it is irrelevant to the question. --Wrongfilter (talk) 14:52, 19 December 2024 (UTC)[reply]
The problem is that the OP's question contains false premises. One is the question of what the "official" name is. There is no "official" name. It's the "conventional" name. And the second part, claiming that "Sol" comes from Sci-fi, is demonstrably false. ←Baseball Bugs What's up, Doc? carrots15:05, 19 December 2024 (UTC)[reply]
Then demonstrate (that the usage of "Sol" as a name for the Sun, in English, not its use to derive adjectives, originated outside of SF), with references. The original question does not even include any premises, with maybe the exception of "ubiquitous". --Wrongfilter (talk) 15:18, 19 December 2024 (UTC)[reply]
"Is our star system officially called "Sol" [answer: NO], or is that just something that came from science fiction [answer: NO] and then became ubiquitous? [whatever that means]". And the wording of your own question, just above, does not make sense. ←Baseball Bugs What's up, Doc? carrots15:24, 19 December 2024 (UTC)[reply]
Looking at Newspapers.com (pay site), I'm seeing colloquial references to "old Sol" (meaning the sun) as far back as the 1820s. No hint of sci-fi derivation. ←Baseball Bugs What's up, Doc? carrots15:32, 19 December 2024 (UTC)[reply]
Great! Well done. --Wrongfilter (talk) 15:41, 19 December 2024 (UTC)[reply]
Feel free to box up this section. ←Baseball Bugs What's up, Doc? carrots15:52, 19 December 2024 (UTC)[reply]
The 1933 OED entry for Sol, linked to above, gives several pre-SF uses, the earliest from 1450.  --Lambiam 23:48, 19 December 2024 (UTC)[reply]
Yes, of course, but that's not surprising, is it? 15th century humanists, astrologers and pre-Victorian poets liked to sprinkle their texts with Latin words. But I don't think this is what the question is about. It's a matter of context, but it should be up to OP to clarify that. --Wrongfilter (talk) 08:48, 20 December 2024 (UTC)[reply]
It's not surprising, but the discussion was not whether the use of Sol in English texts is surprising, but whether it originated outside of SF.  --Lambiam 10:52, 20 December 2024 (UTC)[reply]
In my view, the question has a clear scifi bent, and that particular usage ("Where shall we go for our vacation? Alpha Centauri or Sol?") does not originate in the 15th century. The word is much older, of course it is, but the usage is not. In the 15th century people didn't even know that the Sun is just an ordinary star and could do with a particular name to distinguish it from the others. The connotations of sol were vastly different from what they are today and from what is implied in OP's question. Incidentally, the IAU doesn't even define a name [5], although they recommend using capitalised "Sun". Certainly no "Sol" anywhere. --Wrongfilter (talk) 12:04, 20 December 2024 (UTC)[reply]
Does that make it a Sol-ecism? Clarityfiend (talk) 12:19, 19 December 2024 (UTC)[reply]
More like a Sol-ips-ism. Meaning a factory where suns are made. From Sol = sun, and ipso = facto. Thus endeth the entymogology lesson for today. Go in peace to love and serve whomsoever. -- Jack of Oz [pleasantries] 19:37, 19 December 2024 (UTC) [reply]

Mountains

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Why there are no mountains on Earth with a height above 10,000 m? As the death zone is about at 8,000 m, and above 19,000 m, there is an Armstrong limit, where water boils at normal human body temperature, it is good that there are no more mountains higher than 8,000 km than just 14, but if there were hundreds of mountains above 9,000 m, then these were bad to climb. If there were different limits for death zone and Armstrong limit, would then there be possible to have higher mountains? I have just thought that, it is not a homework? --40bus (talk) 22:29, 18 December 2024 (UTC)[reply]

There are mountains elsewhere in the solar system that are over 20km high. Given that some of those are on airless worlds, I don't think the air pressure has any bearing on it. 146.90.140.99 (talk) 22:57, 18 December 2024 (UTC)[reply]
Multiple sources from web searching suggest the theoretical maximum height for mountains on Earth is around 15,000 m – the limiting factor is Isostasy; the higher (therefore more voluminous) a mountain is, the more its weight causes the crust beneath it to sink. The actual heights of mountains are a trade-off between how fast tectonic movements can raise them versus isostatic sinking and how quickly they are eroded, and tectonic movements do not last for ever. See also Orogeny. {The poster formerly known as 87.81.230.195} 94.1.223.204 (talk) 00:25, 19 December 2024 (UTC)[reply]
And erosion goes faster as the mountain gets higher, in particular when it's high enough to support glaciers – one reason why mountains can get higher on an airless world. Now it gets interesting for a mountain high enough to reach into the stratosphere, as it would be too dry to have anything but bare rock. I suppose it would locally raise the tropopause, preventing that. PiusImpavidus (talk) 11:13, 19 December 2024 (UTC)[reply]

December 19

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Does human DNA become weaker with each generation?

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As with photocopying something over and over, the text becomes less clear each time.

Does human DNA become weaker with each generation? HarryOrange (talk) 21:22, 19 December 2024 (UTC)[reply]

Sure, DNA replication is not perfect, although proofreading reduces the error rate to about 1 mistake per 109 nucleotides (see our article on DNA Replication). But that is per generation of cells, not of the whole organisms. Many mutations will be neutral in effect (because much of our DNA is redundant), some will be deleterious, and a few might be advantageous. It is the process of natural selection that hinders the spread of deleterious mutations: sometimes this aspect is called purifying selection. One thus usually expects a stable mutation–selection balance over time rather than that "DNA becomes weaker with each generation". Medical science is reducing the selection pressure against some mutations, which consequently may become more common. One of the problems for asexual organisms is referred to as Muller's ratchet; assuming that reverse mutations are rare, each generation has at least the mutational load of its predecessor. In contrast, in sexual organisms genetic recombination generates the variation that, combined with selection, can repair the situation. Sexual organisms consequently have a lighter genetic load. JMCHutchinson (talk) 22:42, 19 December 2024 (UTC)[reply]
So purifying selection won't work properly in case of Inbreeding ? HarryOrange (talk) 23:16, 19 December 2024 (UTC)[reply]
The larger the degree of inbreeding, the larger the chance that deleterious traits are expressed. But this very expression of traits leading to decreased biological fitness of their bearers is what actually enables purifying selection in the longer term.  --Lambiam 23:36, 19 December 2024 (UTC)[reply]
@Lambiam so DNA repair won't stop these deleterious traits to get expressed? HarryOrange (talk) 14:11, 20 December 2024 (UTC)[reply]
No, this is not an issue of damage to the DNA. The genes involved are faithfully reproduced and passed on from generation to generation.  --Lambiam 15:53, 20 December 2024 (UTC)[reply]
Or stronger e.g. "...we found that genes specifically duplicated in the Greenland shark form a functionally connected network enriched for DNA repair function", and those guys live for centuries and have much more DNA than us. Sean.hoyland (talk) 15:21, 20 December 2024 (UTC)[reply]
@Lambiam If not due to DNA damage, why do babies from inbreeding appear like DNA-damaged species? HarryOrange (talk) 17:29, 20 December 2024 (UTC)[reply]
Inbred offspring of species that normally outcross may show abnormalities because they are more likely than outcrossed offspring to be homozygous for recessive alleles that are deleterious. In individuals that are heterozygous at these loci, the recessive alleles will not be expressed (because the other wild-type dominant allele is sufficient to do their job adequately). See our article on inbreeding depression. JMCHutchinson (talk) 19:26, 20 December 2024 (UTC)[reply]

Larvae going south

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In a novel I've just finished (The Chemistry of Death by Simon Beckett) he writes:

  • [The larvae] leave the body in an orderly fashion, following each other in a neat procession that always heads south. South-east or south-west sometimes, but never north. No-one knows why.

The author has done considerable international research on the science of forensic identification of decayed bodies and I assume his details can be trusted.

I've looked online for any verification of this surprising statement, but found only this, which seems to debunk it.

Is there any truth to this? -- Jack of Oz [pleasantries] 23:38, 19 December 2024 (UTC)[reply]

Can't speak to its truth, but . . .
  • Does Beckett state this in his own auctorial voice (i.e. as an omniscient narrator)? If so, he might be genuinely mistaken.
  • The book was published nearly 20 years ago, what was the accepted wisdom then?
  • What specific species (if any) is the book describing? – your linked Quora discussion refers only to "maggots" (which can be of numerous species and are a kind of larva, but there are many others, including for example Processionary caterpillars).
  • Alternatively, if the statement is made by a character in the book, is that character meant to be infallible, or is he portrayed as less than omniscient, or an 'unreliable narrator'?
Regarding the statement, in the Northern hemisphere the arc of South-east to South-west is predominently where the Sun is found well above the horizon, the North never, so the larvae involved might simply be seeking maximum warmth or light. {The poster formerly known as 87.81.230.195} 94.1.223.204 (talk) 02:18, 20 December 2024 (UTC)[reply]
This appears in the very first paragraph of Chapter I, which starts out:
  • A human body starts to decompose four minutes after death. Once the encapsulation of life, it now undergoes its final metamorphoses. It begins to digest itself. Cells dissolve from the inside out. Tissue turns to liquid, then to gas. No longer animate, the body becomes an immovable feast for other organisms. Bacteria first, then insects. Flies. Eggs are laid, then hatched. The larvae feed on the nutrient-rich broth, and then migrate. They leave the body in an orderly fashion ... (then the quote above completes the paragraph).
It's not until para 2 that he starts talking about any human characters, and not until para 4 that he invokes the first person.
That's as much as I know. But I find it hard to believe he'd just make up a detail and put it in such a prominent place if it could so easily be debunked if it were not true. -- Jack of Oz [pleasantries] 02:39, 20 December 2024 (UTC)[reply]
I wonder how they would measure the migratory path of maggots within a sealed coffin. ←Baseball Bugs What's up, Doc? carrots02:51, 20 December 2024 (UTC)[reply]
The context of the novel is about finding decaying corpses that have been dumped in a forest. No coffins involved. -- Jack of Oz [pleasantries] 06:08, 20 December 2024 (UTC)[reply]
Baseball Bugs, see also body farm research facilities. Alansplodge (talk) 13:44, 20 December 2024 (UTC)[reply]
Could it be that the larvae are setting off in search of another corpse? The prevailing wind in the UK is from the south-west, so by heading into the wind they won't be distracted by the frangrance of the one they've just left. Shantavira|feed me 09:30, 20 December 2024 (UTC)[reply]

If you can, have a look at 'Heinrich, Bernd. “Coordinated Mass Movements of Blow Fly Larvae (Diptera: Calliphoridae).” Northeastern Naturalist, vol. 20, no. 4, 2013, pp. N23–27. JSTOR, http://www.jstor.org/stable/43288173.' Here are some extracts

  • On the fourth day, after a cooling night with dew on the grass, a stream of tens of thousands of larvae exited from beneath the carcass within 1 h after sunrise, and proceeded in a single 1-2-cm-wide column directly toward the rising sun...
  • However, in this case, the larvae left at night, within 1 h after a cloudburst (at 21 :00 hours). But, unlike before, this nocturnal larval exodus in the rain was diffuse; thousands of larvae spread out in virtually all directions over an 8 m2area. Apparently, the sudden moisture had cued and facilitated the mass exodus, but the absence of sun had prevented a unidirectional, en masse movement.
  • However, on the following morning as the sun was starting to illuminate the carcass on the dewy grass, masses of larvae gathered at the east end of the carcass at 07:00 hours. In one half hour later, they started streaming in a column directly (within one degree) toward the rising sun, and the carcass was then nearly vacated.

It goes on. Maggot migration appears to be a bit more complicated than the novel suggests. Sean.hoyland (talk) 09:39, 20 December 2024 (UTC) I suppose you could try to address it from the other direction and look at the technology your average maggot has access to in terms of light detection, heat detection, olfactory systems, orientation in magnetic fields (like many arthropods) etc. They presumably have quite a lot of tools. Sean.hoyland (talk) 10:13, 20 December 2024 (UTC)[reply]

If orderly migrating maggots tend to move towards the sun, they should display a northward tendency in Oztralia.  --Lambiam 10:31, 20 December 2024 (UTC)[reply]
Maybe, but the novel is set in England.
I must say, as soon as I read the quoted para for the first time, my immediate thought was that it might have something to do with the magnetic field of the earth. -- Jack of Oz [pleasantries] 10:42, 20 December 2024 (UTC)[reply]
Prime suspect might be the Bolwig organ, the photoreceptor cluster many fly larvae have. Sean.hoyland (talk) 10:49, 20 December 2024 (UTC)[reply]
Obviously, Jack, you need to create a corpse, place it in a nearby forest, and carefully observe which way the maggots go. For Science! And Literary Criticism! {The poster formerly known as 87.81.230.195} 94.1.223.204 (talk) 21:01, 20 December 2024 (UTC)[reply]

December 20

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Winter solstice and time of sunrise?

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How is it that despite December 21st supposedly being the shortest day of the year, sunrise here happens later and later until December 26 and only on January 05 starts to turn around to occur earlier and earlier. On December 25 it takes place at about 08:44, between December 26 and January 04 it takes place at about 08:45, and on January 05 it takes place again at about 08:44. (Google rounds out the seconds). Is it Google's fault? Is it everywhere the same? Confused in Brussels, Belgium. 178.51.16.158 (talk) 12:06, 20 December 2024 (UTC)[reply]

The pertinent article is Analemma, start with the section Earliest and latest sunrise and sunset. The details are not that simple to understand, but it's basically due to the ellipticity of Earth's orbit and its axial tilt. --Wrongfilter (talk) 12:22, 20 December 2024 (UTC)[reply]
Also note that sunset begins to be later on 22 December so that the time between sunrise and sunset is a few seconds longer than on 21 December (3 seconds longer on 22/12/24 in Brussels according to this). Alansplodge (talk) 13:33, 20 December 2024 (UTC)[reply]
Also see Equation of time#Major components. The obliquity of the ecliptic (that is, the Earth's axial tilt) is the main component and hardest to understand. But the idea is that the time when the Sun is exactly south (that is, the true noon) moves some minutes back and forth throughout the year and it moves quite rapidly to later times in late December. PiusImpavidus (talk) 19:05, 20 December 2024 (UTC)[reply]

Three unit questions

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  1. Why territorial waters are defined by nautical miles instead of kilometers?
  2. Why GDP is usually measured in US dollars rather than euros? Euro would be better because it is not tied into any country.
  3. Are there any laws in United States that are defined by metric units?

--40bus (talk) 23:30, 20 December 2024 (UTC)[reply]

  1. There were nautical miles in use before there were kilometers.
  2. There were US dollars in use before there were Euros.
  3. Yes.
The questions all reduce to Why can't millions of people make a change of historically widely accepted units that continue to serve their purpose, and convert to different units that would have no substantive difference, because someone has an opinion. Philvoids (talk) 00:52, 21 December 2024 (UTC)[reply]
Do any people use metric units in marine and air navigation like "The ship is 10 kilometers from the port", "The plane is 10 kilometers from the destination? And is there any European country with metric flight levels? --40bus (talk) 07:22, 21 December 2024 (UTC)[reply]
Inland shipping (rivers, canals and lakes) in Europe (except the UK) is fully metric. Ships going for example TilburyDuisburg may have to switch units along the way. Gliders and ultralight aircraft in Europe often use metric instruments and airport dimensions are also metric (including runway length). Countries are free to define their territorial waters in whatever way they deem fit, so with nautical miles having no legal status in a fully metric country, they may define their territorial waters as extending 22224 metres. PiusImpavidus (talk) 11:23, 21 December 2024 (UTC)[reply]
Our nautical mile article says: "In 1929 the international nautical mile was defined by the First International Extraordinary Hydrographic Conference in Monaco as exactly 1,852 metres (which is 6,076.12 ft). The United States did not adopt the international nautical mile until 1954. Britain adopted it in 1970..."
As the US customary units are actually defined in terms that relate them to metric units, any US law based on measurements is technically defined by metric units.--User:Khajidha (talk) (contributions) 01:55, 21 December 2024 (UTC)[reply]
The US dollar has been the world's dominant reserve currency for about 75 years. As for the metric system in the US, it is standard in scientific, medical, electronics, auto manufacturing and other highly technical industries. By law, all packaged foods and beverages have metric quantities as well as customary quantities. See Metrication in the United States. Cullen328 (talk) 02:28, 21 December 2024 (UTC)[reply]

The Wikipaedia article on the Nautical Mile talks about how the term originated, it was originally defined in terms of latitude not as a number of meters 114.75.48.128 (talk) 10:03, 24 December 2024 (UTC)[reply]

December 24

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Unknown species of insect

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Am I correct in inferring that this guy is an oriental beetle? I was off-put by the green head at first, but the antennae seem to match. JayCubby 03:00, 24 December 2024 (UTC)[reply]

(reference: https://www.genesdigest.com/macro/image.php?imageid=168&apage=0&ipage=1)

It looks like one of the invasive Japanese beetles that happens to like my blackberries in the summer. Modocc (talk) 13:11, 24 December 2024 (UTC)[reply]
I would say not necessarily a Japanese beetle, but almost certainly one of the other Scarab beetles, though with 35,000 species that doesn't help a lot. Looking at the infobox illustration in that article, 16. & 17., "Anisoplia segetum" looks very similar, but evidently we either don't have an article or (if our Anisoplia article is a complete list) it's been renamed. {The poster formerly known as 87.81.230.195} 94.1.223.204 (talk) 14:18, 24 December 2024 (UTC)[reply]
Yes, it's not the Japanese beetle for this beetle appears to lack its white-dotted fringe although its condition is deteriorated. Its shape is also more or less more slender; and not as round. Modocc (talk) 15:02, 24 December 2024 (UTC)[reply]
Perhaps it is the shining leaf chafer Strigoderma pimalis. Shown here. Modocc (talk) 16:09, 24 December 2024 (UTC)[reply]
That looks like easily the best match I've seen so far, and likely correct. {The poster formerly known as 87.81.230.195} 94.1.223.204 (talk) 17:09, 24 December 2024 (UTC)[reply]

December 25

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