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{{Misplaced Pages:Reference_desk/Archives/Science/2011 April 24}}
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= April 26 =
= December 27 =
== Application of brain lateralization to UI design? ==
== Low-intensity exercise ==
The article ] doesn't discuss the phenomenon's applications. that gamers should place UI elements that they respond to with the right hand on the right side of the screen, and those that they respond to with the left hand on the left side, to shorten reaction time. Do any ergonomic studies support this claim? Is it possible that a gamer might be able to process some elements of the game state faster in one lobe than the other? ]] 00:43, 26 April 2011 (UTC)
:A lot of "left-brain" and "right-brain" theory was never founded on scientific experiment, and most of it has been pretty thoroughly discredited. What we're left with is a much more vague, but much more believable, theory of ]. It may take decades for "pop psychology" to let the numerous invalid ideas go to rest, though. There is very little actual evidence to suggest, for example, that the "left side" of the brain is more suited to (or more active during) quantitative or numeric cognitive activity. ] (]) 00:50, 26 April 2011 (UTC)
::That's all true, but there is some pretty solid evidence that simple visuomotor reactions are faster when they use the hand on the same side as the stimulus (for example PMID 7128169). It is much less clear what happens when the stimuli are more complex or require sophisticated decision-making. From an anatomical point of view, the brain is wired such that the visual input from the right side of the world goes to the hemisphere that controls the right hand, and the left side matches with the left hand, so the basis for such an effect is certainly there. ] (]) 01:28, 26 April 2011 (UTC)
If you exercise at a low intensity for an extended period of time, does the ] still occur if you do it for long enough? Or does it only occur above a certain threshold intensity of exercise? ] (]) 20:13, 27 December 2024 (UTC)
== How to save generic annotated DNA sequences? ==
:Hows about you try it and report back? :) ←] <sup>'']''</sup> ]→ 21:31, 27 December 2024 (UTC)
::I wanted to try it just today, but I had to exchange the under-desk ] I got for Christmas for a different model with more inclined treadles because with the one I got, my knees would hit the desk at the top of every cycle. Anyway, I was hoping someone else tried it first (preferably as part of a formal scientific study) so I would know if I could control whether I got a runner's high from exercise or not? ] (]) 03:09, 28 December 2024 (UTC)
Also, sorry for adding to my own question, but here's a related one: is it known whether the length of a person's ] (which is inversely correlated with its sensitivity) influences whether said person gets a runner's high from exercise (and especially from low-intensity exercise)? ] (]) 03:14, 28 December 2024 (UTC)
== ] vs ] ==
There is a sequence in a generic form with annotations. How do I save it so that I can open it in a capable program which will feature the described annotations? Thanks. --] (]) 14:24, 26 April 2011 (UTC)
:Can you be more specific about what you want to ultimately be able to do with the sequence? The "capable program" you choose (and there are lots of options) is going to depend on your application, and each program probably has a different input format. If you already have a program you want to use, then there should be some kind of FAQ or user guide that describes the required input. If you haven't already selected a program, then the question you really want to ask is "what program should I use to accomplish X". --- ] (]) 15:01, 26 April 2011 (UTC)
Hi,
::Hi. Thanks for your response. The program is called SeqBuilder; it's a miserable excuse for a cloning tool which we use because our Institute cannot afford Vector NTI. However, the page that I link to presents the genetic and annotation information in a way which I have seen time and time again in my short scientific life and this leads me to believe that it is some sort of generic format, capable of being understood by a number of different programs. If I save it as an .sbd file, SeqBuilder will open the sequence but ignore the annotations. I hope that by appending the correct file extension, I'll achieve an annotated sequence. --] (]) 19:33, 26 April 2011 (UTC)
What is the difference between an auxotroph and a fastidious organism? It seems to me the second one would have more requirements than the first one, but the limit between the two definitions is rather unclear to me.
:::You say, "the page that I link to" - which page is that? If you have an example of the layout you desire it will be easier to guide you. The options are remarkably diverse. Examples of free programs: , . is not free, but has great features & students can get a 1-month license for $39. If these aren't what you want, please be more specific. -- ] (]) 02:54, 27 April 2011 (UTC)
Thank you ] (]) 23:17, 27 December 2024 (UTC)
:The file format you link appears to be a variant of the EMBL or Swiss-Prot file formats (see and ). If it doesn't autodetect the format, you would have to see what extension your program expects files with such a format to have. (Besides looking in the manual, one way to do so would be to try *saving* as EMBL format, and see what extension the program give it.) -- ] (]) 00:40, 27 April 2011 (UTC)
:I'm not 100% sure, but it seems to me that an auxotroph is a specific type of a fastidious organism. ] (]) 03:02, 28 December 2024 (UTC)
:Symbiosis aside, it would seem that most auxotrophs would be fastidious organisms, but there could be many more fastidious organisms that aren't auxotrophs. Auxotrophs specifically can't produce organic compounds on their own. There are a LOT of organisms that rely on the availability of non-organic nutrients, such as specific elements/minerals. For instance, vertebrates require access to calcium. Calcium is an element; our inability to produce it does not make us auxotrophs.
:But perhaps symbiosis would allow an organism to be an auxotroph without being a fastidious organism? For instance, mammals tend to have bacteria in our guts that can digest nutrients that our bodies can't on their own. Perhaps some of those bacteria also assemble certain nutrients that our bodies can't? -- ] (]) 14:27, 28 December 2024 (UTC)
= December 28 =
== Fermi Paradox and data encryption ==
Our article on the ] says that compressed data streams would be almost indistinguishable from white noise. Would not the same apply if the data was encrypted? ] (]) 17:06, 26 April 2011 (UTC)
== Paper with wrong enantiomer in a figure ==
:If it's good encryption, then absolutely. See . So you're hypothesizing that the galaxy is teeming with life that communicates by radio, but it's encrypted, so we have no idea? ] (]) 17:13, 26 April 2011 (UTC)
In the following reference:
:Both for compressed and encrypted streams, this assumes the data is sent with no kind of ]. You can communicate over an unreliable medium with a self-synchronising code, but why would you bother (unless you were trying to conceal the transmission)? Note that the assertion about compressed streams in that article is unsourced. -- ] ☻ ] 17:23, 26 April 2011 (UTC)
:{{cite journal |last1=Quack |first1=Martin |last2=Seyfang |first2=Georg |last3=Wichmann |first3=Gunther |title=Perspectives on parity violation in chiral molecules: theory, spectroscopic experiment and biomolecular homochirality |journal=Chemical Science |date=2022 |volume=13 |issue=36 |pages=10598–10643 |doi=10.1039/d2sc01323a |pmid=36320700}}
it is stated in the caption of Fig. 8 that ''S''–] is predicted to be lower in energy due to ], but in the figure the wrong enantiomer is shown on this side. Which enantiomer is more stable, according to the original sources for this data? –] (]]) 08:18, 28 December 2024 (UTC)
== Where can I find data on the circulation and citation rates of these journals? ==
:::<small>I think concealment must be the whole point; see ]. ] (]) 22:41, 26 April 2011 (UTC)</small>
Hello everyone, To write an article about a scientist, you need to know, where can I find data on circulation and citation rates of journals from ? ] (]) 09:58, 28 December 2024 (UTC)
:: I'm also not convinced, absent a decent reference, either that a) a compressed stream resembles white noise as opposed to another ] (particularly for schemes which periodically flush their dictionaries) or b) that the cosmic or galactic noise you'd typically see is white either. -- ] ☻ ] 17:36, 26 April 2011 (UTC)
:::It also depends on what your definition of a "resemblance" is. A wide band signal will fill the fourier-domain spectrum, but ''not with random data''. So, if you define a signal to "resemble" white noise, solely on the basis of whether it occupies a wide frequency band, then a ''lot'' of things "resemble" white noise. Ultimately, if you use a deterministic compression methodology, each compressed input stream will have a unique spectral signature; so the characteristics of the output stream will depend entirely on what data is being transmitted. If you use a lossy compression scheme, any particular source stream will map to one of a finite set of possible compressed stream spectral signatures. I'm not very happy about our "color of noise" article, which seems to blur the terminology. I like our ] article much better; and will toss in that digital signal quantization has unique spectral properties that are easily detectable as "band limiting;" the modulation scheme for any particular signal will dictate whether the band limitation exists as a fourier frequency band, or as some other more abstract vector-space spectrum (such as phase-space, or generalized wavelet spectrum, etc). ] (]) 18:13, 26 April 2011 (UTC)
== So-called “Hydrogen water” ==
==Toasted bread==
why does the toasted bread tastes sweeter than the normal bread? <span style="font-size: smaller;" class="autosigned">—Preceding ] comment added by ] (]) 17:29, 26 April 2011 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
:See ]. --]''''']''''' 17:38, 26 April 2011 (UTC)
I saw an ad promoting a device which presumable splits water into
The sugar components of starch (amylose, glucose, etc) are relatively tastless in starch form. But when subjected to dry heat it produces pyrodextrins through process called pydrodextrinization (strange as it may seem). More like the sugars we use for sweetening. Wiki article (starch)scroll to pyrodextrinization.] (]) 18:48, 26 April 2011 (UTC)
hydrogen and oxygen and infuses water with extra hydrogen, to
a claimed surplus of perhaps 5 ppm, which doesn’t seem like much. I found a review article which looked at several dozen related studies that found benefits:https://pmc.ncbi.nlm.nih.gov/articles/PMC10816294/ .
I’ve noticed that carbon dioxide or chlorine (chloramine?) dissolved in water work their way out pretty easily, so I wonder if dissolved hydrogen could similarly exit hydrogen enriched water and be burped or farted out, rather than entering the blood stream and having health benefits. is it more than the latest snake oil? ] (]) 23:01, 28 December 2024 (UTC)
:Without reading the article, I will tell you that you can link to the 'starch' article on this wiki by typing <nowiki>]</nowiki>, which gives you a blue link like this: ]. If there is a header 'pyrodextrinization' in the article, you can link to it by typing <nowiki>]</nowiki> which produces ]. ] (]) 20:43, 26 April 2011 (UTC)
:Yes, the dissolved hydrogen will exit the water just as quickly (even faster, because of its low ] and complete lack of ] or capability for ]), and even if it does enter the bloodstream, it will likewise get back out in short order before it can actually do anything (which, BTW, is why ]s use it in their breathing mixes -- because it gets out of the bloodstream so much faster and therefore doesn't ]) -- so, I don't think it will do much! ] (]) 01:50, 29 December 2024 (UTC)
::It's conceivable it might take out the chloramine, I guess. I don't think there's very much of it, but it tastes awful, which is why I add a tiny bit of vitamin C when I drink tap water. It seems to take very little. Of course it's hard to tell whether it's just being masked by the taste of the vitamin C. --] (]) 02:12, 29 December 2024 (UTC)
:If you just want to split water into hydrogen and oxygen all you need is ]. You don't say where you saw this ad but if it was on a socia media site forget it. ]|] 11:47, 29 December 2024 (UTC)
::If this so-called hydrogen water was emitting hydrogen bubbles, would it be possible to set it afire? ←] <sup>'']''</sup> ]→ 14:03, 1 January 2025 (UTC)
:We once had an article on this topic, but see ]. ] (]) 22:27, 1 January 2025 (UTC)
::I don't know if it is rubbish or not but a quick look on the web indicates to me it is notable enough for Misplaced Pages. I didn't see anything indicating it definitely did anything useful so such an article should definitely have caveats. I haven't seen any expression of a potential worry either so it isn't like we'd be saying bleach is a good medicine for covid. ] (]) 23:07, 1 January 2025 (UTC)
:'']'' does not sound of exceptionally high quality. ] (]) 01:05, 2 January 2025 (UTC)
= December 29 =
::Oh, and I see that you probably meant people to read the bit under ]. ] (]) 20:44, 26 April 2011 (UTC)
== Potential energy vs. kinetic energy. Why not also "]" vs. "]"? E.g. in the following case: ==
== perennial ==
{{resolved}}
The ] article says that they are perennial, but I can't see any mention of exactly how long they usually live. I know perennial means more than 2 years, I would like to know more specifically how long they can live for. ] (]) 18:56, 26 April 2011 (UTC)
In a ], reaching the highest point involves - both a minimal kinetic energy - along with a maximal potential energy, whereas reaching the lowest point involves - both a maximal kinetic energy - along with a minimal potential energy. Thus the mechanical energy becomes the sum of kinetic energy + potential energy, and ''is a conserved quantity''.
:The thing is, 'death by old age' doesn't really apply here. Dandelions exhibit ]. So, death of a mature plant will usually be due to ]s, ], ], etc. In this light, the ''average'' life-span of a dandelion in a given population will depend on how prevalent these sources of mortality are. In principle, I know of no reason why a well-cared for specimen couldn't live 100 years or more. ] (]) 19:23, 26 April 2011 (UTC)
::Thanks! ] (]) 20:33, 26 April 2011 (UTC)
So I wonder if it's reasonable to define also "potential velocity" vs. "kinetic velocity", and claim that in a harmonic oscillator, reaching the highest point involves - both a ''minimal'' "kinetic velocity" (i.e. involves what we usually call ''a rest'') - along with a ''maximal'' "potential velocity", whereas reaching the lowest point involves - both a ''maximal'' "kinetic velocity" (i.e. involves what we usually call ''the actual velocity'') - along with a ''minimal'' "potential velocity". Thus we can also define "mechanical velocity" as the sum of "kinetic velocity" + "potential velocity", and ''claim that the mechanical velocity is a conserved quantity'' - at least as far as a harmonic oscillator is concerned.
== Higgs boson ==
Reasonable?
How does the Higgs boson explain the difference between the massless photon, which mediates electromagnetism, and the massive W and Z bosons <small><span class="autosigned">— Preceding ] comment added by ] (] • ]) 20:04, 26 April 2011 (UTC)</span></small><!-- Template:Unsigned --> <!--Autosigned by SineBot-->
:Assuming you understand the contents of these articles (I certainly don't), you may find your answer at ] or ] or ]. Presumably, the information therin could be summarized in a way that someone who isn't familiar with the mathematics involved can still understand, which I will leave to someone else to do. --]''''']''''' 20:14, 26 April 2011 (UTC)
Note that I could also ask an analogous question - as to the concept of "potential momentum", but this term is already used in the theory of ] for another meaning, so for the time being I'm focusing on velocity.
::<small>Perhaps that editor could also write such a summary in the appropriate articles. Like, as line #1 of each article. ] (]) 22:39, 26 April 2011 (UTC)</small>
] (]) 12:26, 29 December 2024 (UTC)
:::How about starting with an explanation of this...:
: 'kinetic velocity' is just 'velocity'. 'potential velocity' has no meaning. ] (]) 13:56, 29 December 2024 (UTC)
::Per my suggestion, the ratio between distance and time is not called "velocity" but rather "kinetic velocity".
::Further, per my suggestion, if you don't indicate whether the "velocity" you're talking about is a "kinetic velocity" or a "potential velocity" or a "mechanical velocity", the very concept of "velocity" alone has no meaning!
::On the other hand, "potential velocity" is defined as the difference between the "mechanical velocity" and the "kinetic velocity"! Just as, this is the case if we replace "velocity" by "energy". For more details, see the example above, about the harmonic oscillator. ] (]) 15:14, 29 December 2024 (UTC)
:::You could define the ''potential velocity'' of a body at a particular height as the velocity it would hit the ground at if dropped from that height. But the sum of the potential and kinetic velocities would not be conserved; rather <math>v_{\mathrm{tot}} = \sqrt{v_{p}^{2} + v_{k}^{2}}</math> would be constant. ] (]) 18:54, 29 December 2024 (UTC)
::::Thank you. ] (]) 20:07, 29 December 2024 (UTC)
::: 'Potential velocity' has no meaning. You seem to be arguing that in a system where energy is conserved, but is transforming between kinetic and potential energy, (You might also want to compare this to ].) then you can express that instead through a new conservation law based on velocity. But this doesn't work. There's no relation between velocity and potential energy.
::: In a harmonic oscillator, the potential energy is typically coming from some central restoring force with a relationship to ''position'', nothing at all to do with velocity. Where some axiomatic external rule (such as ] applying, because the system is a mass on a spring) ''happens'' to relate the position and velocity through a suitable relation, then the system will then (]) behave as a harmonic oscillator. But a different system (swap the spring for a ]) doesn't have this, thus won't oscillate. ] (]) 00:00, 30 December 2024 (UTC)
::::Let me quote a sentence from my original post: {{tq|Thus we can also...claim that the mechanical velocity is a conserved quantity - '''at least as far as a harmonic oscillator is concerned'''.}}
::::What's wrong in this quotation? ] (]) 07:52, 30 December 2024 (UTC)
:::::It is true, not only for harmonic oscillators, provided that you define {{math|1='''v'''<sub>pot</sub> = − '''v'''<sub>kin</sub>}}. --] 09:07, 30 December 2024 (UTC)
::::* You have defined some arbitrary values for new 'velocities', where their ''only'' definition is that they then demonstrate some new conservation law. Which is really the conservation of energy, but you're refusing to use that term for some reason.
::::: As Catslash pointed out, the conserved quantity here is proportional to the square of velocity, so your conservation equation has to include that. It's simply wrong that any linear function of velocity would be conserved here. Not merely we can't prove that, but we can prove (the sum of the squares diverges from the sum) that it's actually contradicted. For any definition of 'another velocity' which is a linear function of velocity.
::::: Lambiam's definition isn't a conservation law, it's merely a ]. The sum of any value and its ] is always ]. ] (]) 14:04, 30 December 2024 (UTC)
::::::{{small|It is a law of conservation of ''sanity''. Lacking a definition of potential energy, other than by having been informed that kinetic energy + potential energy is a conserved quantity, there is not much better we can do.}} --] 11:20, 31 December 2024 (UTC)
::::::: We have a perfectly viable definition of potential energy. For a pendulum it's based on the change in height of the pendulum bob against gravity. For some other oscillators it would involve the work done against a spring. ] (]) 16:33, 31 December 2024 (UTC)
::::::::Oops, I mistyped. I meant to write:
:::::::::"{{small|Lacking a definition of potential velocity, other than by having been informed that kinetic velocity + potential velocity is a conserved quantity, there is not much better we can do.}}"
:::::::: --] 23:32, 31 December 2024 (UTC)
= December 30 =
::::"In the standard model, at temperatures high enough so that electroweak symmetry is unbroken, all elementary particles are massless. At a critical temperature, the symmetry is spontaneously broken, and the W and Z bosons acquire masses.
== Saltiness comparison ==
::::Fermions, such as the leptons and quarks in the Standard Model, can also acquire mass as a result of their interaction with the Higgs field, but not in the same way as the gauge bosons."
Is there some test one might easily perform in a home ] to compare the ] (due to the concentration of ] ]s) of two liquid preparations, without involving biological ]s? --] 09:22, 30 December 2024 (UTC)
:::Now to be clear - at some very high temperature, does this mean that electron, quark, W, and Z (and photon?) all zip around at the speed of light, as massless particles, and can't go any slower than the speed of light? Are they all actually ''the same'' at that point, or just have the same apparent properties?
:Put two equally sized drops, one of each liquid, on a warm surface, wait for them to evaporate, and compare how much salt residue each leaves? Not very precise or measurable, but significant differences should be noticeable. {The poster formerly known as 87.81.230.195} ] (]) 10:21, 30 December 2024 (UTC)
:::And at some point, they gain masses by interacting with the non-zero vacuum expectation Higgs field. Is there anything about the massless particle that says ahead of time whether it will become an electron, quark, W, or Z when it interacts with the Higgs?
::The principle is sound, but the residue from one drop won't be measurable using kitchen equipment -- better to put equal amounts of each liquid in two warm pans (use enough liquid to cover the bottom of each pan with a thin layer), wait for them to evaporate and then weigh the residue! Or, if you're not afraid of doing some ], you could also try an indirect method -- bring both liquids to a boil, measure the temperature of both, and then use the formula for ] to calculate the saltiness of each! ] (]) 18:22, 30 December 2024 (UTC)
:::If you cool down a photon enough, so that it has a really really ''really'' tiny energy and a huge wavelength, could it interact with a Higgs and become some new particle we don't yet know about? ] (]) 00:41, 27 April 2011 (UTC)
:::Presumably the ''liquid preparations'' are not simple saline solutions, but contain other solutes - or else one could simply use a hydrometer. It is unlikely that Lambian is afraid of doing some algebra. ] (]) 18:57, 30 December 2024 (UTC)
:The short version is that the symmetry breaking mechanism leaves some symmetry behind, and names like "photon" and "electron" are assigned after the fact in accordance with the remaining symmetry. Start with a featureless sphere. There are three independent continuous symmetries of the sphere: rotation around any three mutually perpendicular axes. Now break the symmetry by drawing a dot somewhere on the sphere. Probably, rotation around any of your original axes will move the dot. But there was never any reason to choose those particular axes, so throw them away and choose a new axis through the dot and two other axes perpendicular to that one. Now you have one rotational direction that preserves the remaining symmetry of the sphere-with dot, and two that don't. This is not the greatest of analogies, but it sort of resembles the origin of the photon and the W<sup>±</sup> bosons. Keeping in mind that the choice of axes depends on the location of the dot, and the dot can be anywhere, do those axes "exist" before the dot is drawn? In one sense yes, in another sense no. -- ] (]) 10:51, 27 April 2011 (UTC)
:<s>Assuming the liquid preparations are water-based and don't contain alcohols and/or detergents one can measure their rates of dispersion. Simply add a drop of food dye to each liquid and then time how rapidly droplets of each liquid disperse in distilled water. Materials needed: food dye, eye dropper, distilled water, small clear containers and a timer.</s> ] (]) 21:09, 30 December 2024 (UTC)
::I think thye sphere with a dot is a good analogy. ] (]) 13:46, 27 April 2011 (UTC)
:::The ] of a solution will indicate its molarity, but not identify the solute. ''Liquid preparations'' that might be found in a kitchen are likely to contain both salt and sugar. Electrical conductivity is a property that will be greatly affected by the salt but not the sugar (this does not help in distinguishing Na<sup>+</sup> from K<sup>+</sup> ions though). ] (]) 22:23, 30 December 2024 (UTC)
= April 27 =
::::That's what I'm thinking too -- use an ] to measure the ] of the preparation, and compare to that of solutions with known NaCl concentration (using a ]-type method). ] (]) 20:18, 31 December 2024 (UTC)
== quarks ==
:Quantitative urine test-strips for sodium seem to be available. They're probably covering the concentration range of tens to hundreds millimolar. ] (]) 00:58, 2 January 2025 (UTC)
how do they know that the quarks in a proton maintain their color? in other words do we know that the "red" up quark stays "red"? since we can only take still shots could the red up change to a blue up quark in different still shots without detection? <span style="font-size: smaller;" class="autosigned">—Preceding ] comment added by ] (]) 03:58, 27 April 2011 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
::Thanks, test strips seem more practical in the kitchen setting than an ohmmeter (why not call it a "]meter"?), for which I'd need to devise a way (or so I think) to keep the terminals apart at a steady distance. Test strips require a colour comparison, but I expect that a significant difference in salinity will result in a perceptible colour difference when one strip is placed across the other. Only experiment can tell whether this expectation will come true. Salinity is usually measured in g/L; for kitchen preparations a ballpark figure is 1 g/L. If I'm not mistaken this corresponds to {{nowrap|1=(1 g/L) / (58.443 g/mol) ≈}} {{nowrap|1=0.017 M = 17 ].}} I also see offers for salinity test strips, 0–1000 ppm, for "Science Education". --] 11:40, 2 January 2025 (UTC)
:::Test strips surely come with a printed color-chart. But if all you are trying to do is determine which is more salty, then that's even easier than quantifying each separately. Caveat for what you might find for sale: some "salinity" tests are based on the chloride not the sodium, so a complex matrix that has components other than NaCl could fool it. ] (]) 18:44, 2 January 2025 (UTC)
== The (uncommon?) terms "relativistic length", and "relativistic time". ==
:Quarks are constantly exchanging colors with their neighbors. That's part of how the ] works. ] (]) 04:04, 27 April 2011 (UTC)
Couldn't that be explained more simply as at the time of the observation one quark was moving toward the observer and another was moving away, or more complexly spinning right and moving toward or spinning left and away?
Color seems awfully similar to length width and height, why not use those instead? <span style="font-size: smaller;" class="autosigned">—Preceding ] comment added by ] (]) 04:30, 27 April 2011 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
:Because calling it a form of motion would be wrong. The ] of quarks was specifically called a color because it is a fundemental property which is quite unlike other properties such as "]" and "]" and stuff like that. Since the tripartite existance of quarks within nucleons required 6 values to capture all possible combinations, the 6 color charges (red, antired, blue, antiblue, green, antigreen) allow that to work. Electric charge only requires 2 values (+ and -) to work out. The goal is to pick an analogy which ''won't'' be confused with other properties, like length, volume, or spin. --]''''']''''' 04:41, 27 April 2011 (UTC)
1. In Misplaced Pages, the page ] is automatically redirected to our article ], ''which actually doesn't mention the term "relativistic length" at all''. '''I wonder if there is an accepted term for the concept of relativistic length'''.
:{{ec}} ] has nothing at all to do with visible ]. Quarks don't "look" red or blue, and their color charge has nothing to do with how they are moving. The "red", "blue", and "green" quark charges are simply labels used to refer to different kinds of charge. This is analogous to how objects can have an "electrical" charge, except that in this case "red", "blue", and "green" refer to other kinds charge that only encountered in the hearts of nucleons. These are simply labels that physicists adopted. Admittedly, using the familiar terms and calling it "color" can be confusing to outsiders since the whole process has nothing at all to do with the normal experience of color. ] (]) 04:46, 27 April 2011 (UTC)
2. A similar qusestion arises, at to the concept of relativistic time: The page ], is automatically redirected to our article ], which prefers the abbreviated term "time dilation" (59 times) to the term "relativistic time dilation" (8 times only), and ''nowhere'' mentions the term "relativistic time" alone (i.e. without the third word "dilation") - although it does mention the term "proper time" for the shortest time. Further, this article doesn't even mention the term "dilated time" either. It does mention, though, another term: ], but regardless of time dilation in ''Special'' relativity. '''To sum up, I wonder what's the accepted term used for the dilated time (mainly is Special relativity): Is it "coordinate time"? "Relativistic time"?'''
No, I mean like the "height" position of the quark in the nutron at the time of the photo or single observation, as in one of the three dimensions of space that that particular quark is occupying at that particular time. <span style="font-size: smaller;" class="autosigned">—Preceding ] comment added by ] (]) 04:48, 27 April 2011 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
:Except you can't take a photo of a quark in an observation. Their position exists only as a statistical average of their location taken over an arbitrarily long period of time, exactly as electrons do. The three quarks in a nucleon exist in a small sphere whose volume is defined by the distance over which the strong interaction operates. They don't actually exist in any specific place within that sphere, and it is completely meaningless to speak of a quark as a little ball which can be "frozen in time" by a photograph. Fundemental particles don't work that way. Your presumption that you could define it as such is flawed at the most basic level. --]''''']''''' 04:56, 27 April 2011 (UTC)
] (]) 09:32, 30 December 2024 (UTC)
Ok, the height "quality" of the nutron the length quality of the nutron and the width quality of the nutron gives the nutron the ability to be in all three dimensions, but each quark takes turns as each of those qualities equally. <span style="font-size: smaller;" class="autosigned">—Preceding ] comment added by ] (]) 05:02, 27 April 2011 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
:Are you reading these things as "contraction of relativistic length" etc.? It is "relativistic contraction of length" and "relativistic dilation of time". --] (]) 09:37, 30 December 2024 (UTC)
:{{ec}} <small>with below. This response is to the above.</small>I guess so. We can "call" the three quark charges anything we like. You could say that the three quark charges are called "]" if you wanted to, then describe gluon interactions as "A tom quark emits an tom-antidick gluon, which converts the neighboring dick quark to a tom quark, which itself then emits a dick-antiharry gluon, converting the harry quark to a dick quark" The choice of the three names for the three quark charges is completely arbitrary, and any set of three names would work. Height-Width-Length is a nice three-part set, the problem with using it is that those three words already apply to a part of physical reality which is already "coded for" in the x-y-z axis system inherent in the ] quantum number. Since the particle spin axis is defined as the z (height) axis, it doesn't make any sense to define both spin and quark charge using the same set of terms. Since the height-width-length (z-y-x if you prefer) is already fundemental to how spin is defined, it would be beyond confusing to use the same terms to define quark charge. Even the Tom-Dick-Harry system would be better. The advantage of the color system is that quark-quark interactions through gluon exchange can be directly modeled by how colors interact. Just as combining red with its complementary color (cyan or "antired") results in colorless (white) light, combining a red quark with an antired gluon will "cancel" the red color. --]''''']''''' 05:20, 27 April 2011 (UTC)
::When I wrote: {{tq|The page ] is automatically redirected to our article ] which...nowhere mentions the term "relativistic time" alone (i.e. without the third word "dilation")}}, I had already guessed that the term "dilation of relativistic time" (i.e, with the word "dilation" preceding the words "relativistic time") existed nowhere (at least in Misplaced Pages), and that this redirected page actually meant "relativistic dilation of time". The same is true for the redirected page "relativistic length contraction": I had already gussed it didn't mean "contraction of relativistic length", because (as I had already written): {{tq|the article ]...doesn't mention the term "relativistic length" at all}}.
::Anyway, I'm still waiting for an answer to my original question: Are there accepted terms for the concepts, of relativistic length - as opposed to ], and of relativistic time - as opposed to ]? ] (]) 10:12, 30 December 2024 (UTC)
:::A term that will be understood in the context of relativistic length contraction is ''relative length'' – that is, length relative to an observer.<sup></sup> --] 10:55, 31 December 2024 (UTC)
::::Thank you. The middle source uses the term "comparative length", rather than "relative length". I couldn't open the third source. ] (]) 08:04, 1 January 2025 (UTC)
:::::The text under the graph labelled '''Comparative length''' on page 20 of the middle source reads:
::::::Graph of the relative length of a stationary rod on earth, as observed from the reference frame of a traveling rod of 100cm proper length.
:::::A similar use of "relative length" can be seen on the preceding page. --] 10:23, 2 January 2025 (UTC)
== What did Juan Maldacena say after "Geometry of" in this video? ==
:Quarks already have positions. Color charge refers to an entirely different set of properties that are in addition to the position characteristics. ] (]) 05:12, 27 April 2011 (UTC)
I was watching this video ] and ] as they explore a wealth of developments connecting black holes, string theory etc, ] said something right after "'''Geometry of'''" Here is the spot: https://www.youtube.com/live/yNNXia9IrZs?si=G7S90UT4C8Bb-OnG&t=4484 What is that? ] (]) 20:46, 30 December 2024 (UTC)
That's not what Jayron just said. <span style="font-size: smaller;" class="autosigned">—Preceding ] comment added by ] (]) 05:13, 27 April 2011 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
:]. --] (]) 21:05, 30 December 2024 (UTC)
::Thank you, its the ]'s accent which made me post here. ] (]) 21:18, 30 December 2024 (UTC)
= December 31 =
:(post EC response). A quarks spin defines the three dimensions (the axis of the spin fixes the "z" axis of the coordinate system). However, quarks, like other fundemental particles such as electrons, can't be localized to a specific point within their defined probability distribution. As far as I know, there's no way to specifically define a position within the nucleon for each quark to occupy. We draw pictures of quarks as three little circles within a bigger circle because this allows us to visualize them, but this is no more an accurate model of the quark than the ] is an accurate model of the electron. --]''''']''''' 05:20, 27 April 2011 (UTC)
I get that the "three little colored circles" are not representative of the dynamics of a nutron. I don't believe that simply identifying the xyz coordinates is equivalent to explaining how a nutron exists in those dimensions. Would you agree that just as two electrons cannot occupy the same state two quarks in a nutron cannot occupy the same dimension. that in order to have a nutron it must occupy three dimensions. To have a nutron with two height qualities and a length quality would leave out the width quality <span style="font-size: smaller;" class="autosigned">—Preceding ] comment added by ] (]) 05:35, 27 April 2011 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
:Then we're just debating semantics here. You can literally use any three words to define quark charge that you want (see my Tom-Dick-Harry explanation above), so long as you don't mistake the three words you choose as representing '''any''' real property except for the quark charge. The disadvantage of using the positional terms is that it ''implies'' a connection to reality which does not exist and may confuse. The advantage of the color system is twofold. First, it is less likely to confuse since it uses terms and concepts which are not encountered elsewhere in the model. Secondly, the way in which colors interact (see my red-cyan colormixing example above) makes a nice analog for how color-charge works. So, yes, you are technically correct that you could choose any set of three words to represent the quark-charge concept. However, don't overextend the words you use to take on meanings that do not correlate to behavior. Using words like "height, width, and length" to describe the three aspects of quark charge '''has no connection to any other definition of those terms.''' It would be just as arbitrary of a system as the color system would, so why upset the applecart. Instead, just stick with the system that exists which, while equally arbitrary as your proposed system would be, has the distinct advantage that ''everyone is already using it. --]''''']''''' 05:48, 27 April 2011 (UTC)
::The animation of gluons in ] shows a neutron transiently having two red down quarks. But the article says "...introduced the notion of color charge to explain how quarks could coexist inside some hadrons in otherwise identical quantum states without violating the Pauli exclusion principle." Is either of these things wrong or misleading? ] (]) 05:52, 27 April 2011 (UTC)
:::The picture is attempting to show the gluon exchanges happening in isolation. It is my understanding that, in reality, all three gluon exchanges would happen simultaneously, so all three gluons would change color at the same time. If the gluon exchanges happened sequentially (as shown in the animations) rather than simultaneously, it would lead to some rather impossible situations. The animations are showing isolated gluon exchanges probably because it makes it easier to show how the two-color gluons (say red-antigreen) can change the color of the target proton. In reality, these exchanges are happening simultaneously, and at the speed of light, over a distance of a few femtometers, which is about as instantaneous as the universe will allow. --]''''']''''' 06:02, 27 April 2011 (UTC)
== Brightest spot of a discharge tube ==
::::The animation is accurate and consistent with the exclusion principle. ] (]) 13:40, 27 April 2011 (UTC)
]
So noone knows what physical properties the colors represent? I figured that the colors were to make it easier to understand, not that no one knows how else to interpret it. wow. <span style="font-size: smaller;" class="autosigned">—Preceding ] comment added by ] (]) 18:44, 27 April 2011 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
]
:Sure, we know what physical property the colors represent. They represent the 6-fold "quark charge" which is fundemental to how the strong nuclear force works. This is '''exactly''' analogous to the 2-fold electric charge which is fundemental to how the electromagnetic force works. If you understand what physical property + and - mean with regards to the electromagnetic force, then you also exactly understand what the 6 colors of ] mean with regard to the strong nuclear force. Its the exact same sort of thing. --]''''']''''' 18:48, 27 April 2011 (UTC)
:Think carefully about it. What doyoumeanbyaphysicalproperty?Forinstance,whatphysicalproperty does the mass of a particle represent? ] (]) 18:57, 27April2011 (UTC)
What causes the discharge tubes to have their brightest spots at different positions? ] (]) 13:12, 31 December 2024 (UTC)
Why couldn't it be the H-W-L qualities? <span style="font-size: smaller;" class="autosigned">—Preceding ] comment added by ] (]) 18:56, 27 April 2011 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
:H-W-Larespacial properties. color charge are not spacial properties the samewaythatelectricchargesarenot spacial properties. ] (]) 18:59, 27April2011 (UTC)
: See also the pictures at ]. --] (]) 13:26, 31 December 2024 (UTC)
How do you know: Photon 1 dimension = no charge; Electron 2 dimensions +,-; Quark 3 dimensions HWL? <span style="font-size: smaller;" class="autosigned">—Preceding ] comment added by ] (]) 19:02, 27 April 2011 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
:Do you mean 0, 1 and 2 dimensions respectively? – ] 19:34, 27 April 2011 (UTC)
I don't think so? How do you mean? <span style="font-size: smaller;" class="autosigned">—Preceding ] comment added by ] (]) 19:46, 27 April 2011 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
::Again, I need to ask the question: Why are you so tied to the words used to describe the property? You seem to be having a problem conceptualizing that the '''word''' is not the '''thing itself'''. This is purely a linguistic problem. We've already conceded that the words you use to describe the quark charge thing are completely arbitrary, there's nothing inherently wrong with your system, excepting that it isn't any improvement on the current system, which has the advantage that its already used. Why is height-width-length any '''better''' to describe the system than red-green-blue is? The fact that HWL is coincidentally a 3-dimensional system? So isn't red-green-blue (see ]). What makes your three-dimensional system better than the existing three dimensional system already in use? --]''''']''''' 21:01, 27 April 2011 (UTC)
I guess its better to me only because it helps me understand.
:That's cool. If you've got a model that works for you, then stick with it I guess; but you also need to be able to work with the existing model and understand it as well. --]''''']''''' 01:01, 28 April 2011 (UTC)
= January 1 =
== Why does coldness hasten the browning of a banana peel? ==
== Two unit questions ==
I took two nearly identical bananas and put one inside the cold refrigerator and one on the room temperature counter and after a couple of hours the one in the fridge was significantly more browned. I assume the chemical content of the air (%O2, %N2, etc...) is the same since the fridge door opens and closes frequently enough and there's nothing else in the fridge I think is giving off or absorbing gases much. The physical difference between the different temperature airs is then pressure. I don't have a bell jar with vacuum pump, though. Will a banana peel brown at an accelerated rate in a vacuum? Thanks. ] (]) 14:43, 27 April 2011 (UTC)
#Is there any metric unit whose ratio is not power of 10, and is divisible by 3? Is there any common use for things like "{{frac|2|3}} km", "{{frac|5|12}} kg", "{{frac|3|1|6}} m"?
:Surveying the Web, it's apparent that cold injury sets in below about 10 C. What happens is that the plant senses damage, and (perhaps via ethylene) activates enzymes such as ] and ]. It is possible to slow this down with a modified atmosphere with less oxygen and more carbon dioxide. I saw claims on non-reliable sites that you could slow down the browning by keeping the bananas in a bag, but I don't know if the banana actually respires enough to build up CO2 in a bag. (, but I might go bananas trying to track it down) This is essentially a pigmentation reaction, producing melanin - though the details are not quite the same as the reaction in insects, the basic function of responding to injury or infection using a pigmentation reaction is the same. ] (]) 15:49, 27 April 2011 (UTC)
#Is a one-tenth of nautical mile (185.2 m) used in English-speaking countries? Is there a name for it?
--] (]) 10:41, 1 January 2025 (UTC)
:1 not that I know of (engineer who has worked with SI for 50 years)
::Thanks for that information. You've well answered how the browning happens. "What happens is that the plant senses damage,..." <i>How</i> it does that (how it figures out that it's cold outside and to start doing what you described, which has a side effect of making them appear brown) would be a mechanism of interest. ] (]) 17:21, 27 April 2011 (UTC)
:2 not that I know of (yacht's navigator for many years on and off)
:] (]) 11:35, 1 January 2025 (UTC)
::In Finland, ''kaapelinmitta'' is 185.2 m. Is there an English equivalent? --] (]) 18:11, 1 January 2025 (UTC)
:::]. --] (]) 18:26, 1 January 2025 (UTC)
::::Good article. I was wrong ] (]) 22:26, 1 January 2025 (UTC)
== Blood supply to the dartos muscle ==
:::The answer can be found by looking up '']'' on Wiktionary. --] 00:14, 2 January 2025 (UTC)
== What is more physiological (for a right-hander) left-hand drive or right-hand drive? ==
Does the ] in the ] have a named blood supply?
Has anyone determined whether it is better for a right-hander to have the left hand on the steering wheel and the right hand on the gear shift stick, or the other way round? Are there other tests of whether left-hand drive or right-hand drive is physiologically better (for a right-hander at least)? ] (]) 12:03, 1 January 2025 (UTC)
This is mostly for personal interest, but should possibly be referenced in the article. Kind Regards, ''']]'''<sup>]</sup> 14:47, 27 April 2011 (UTC)
:<small>Supplementary question: I've only driven right-hand-drive vehicles (being in the UK) where the light stalk is on the left of the steering column and the wiper & washer controls are (usually) on the right. On a l-h-drive vehicle, is this usually the same, or reversed? {The poster formerly known as 87.81.230.195} ] (]) 12:12, 2 January 2025 (UTC)</small>
:I did a quick search:
::<small>Modern cars are designed for mass production in RH- and LH-drive versions with a minimum difference of parts. Steering columns with attached controls are therefore unchanged between versions. ] (]) 12:29, 2 January 2025 (UTC)
::"The blood supply to the skin of the penis and the anterior scrotal wall are from the external pudendal arteries. The blood supply to the posterior aspects of the scrotum is from the posterior scrotal arteries, which is a branch of the perineal artery, which is a further branch of the internal pudendal arteries (5) (Fig. 2.1)
:::In the UK nowadays, are cars still mostly manual transmission, or has automatic become the norm? ←] <sup>'']''</sup> ]→ 12:38, 2 January 2025 (UTC)
::Branching off the medial aspect of the femoral artery are the superficial/ superior branches and the deep/inferior branches of the external pudendal artery. These superficial external pudendal branches pass from lateral to medial, in a variable pattern, across the femoral triangle, and within Scarpa's fascia (a loose membrane of superficial fascia; Fig. 2.2).
::::In the UK, sales of new automatics have just recently overtaken manuals - so probably still more manuals than automatics on the road. ] (]) 14:37, 2 January 2025 (UTC)</small>
::After giving off scrotal branches to the anterior scrotum, the superficial external pudendal artery cross the spermatic cord and enter the base of the penis as posterolateral and anterolateral axial branches. Together with interconnecting, perforating branches, they form an arterial network within the Dartos fascia. The Dartos fascia is not really the blood supply; it is more accurate to visualize the fascia as a trellis and the blood supply as the vine entwined on the trellis. At the base of the penis, branches from the axial penile arteries form a subdermal plexus which supplies the distal penile skin and prepuce (Fig. 2.3). There are perforating connections between the subcutaneous and subdermal arterial plexuses. These connections typically are minimal and very fine and, thus, a relatively avascular plane can be developed between the Dartos and Buck's fascia. Because the fascial plexus is the true blood supply to the penile skin flaps that we use in urethral reconstruction, the flaps are considered axial, penile skin island flaps that can therefore be mobilized widely and transposed aggressively.<sup></sup>
:::::<small>This may be tied to the rise of EVs, since they have automatic transmissions by default. {The poster formerly known as 87.81.230.195} ] (]) 05:29, 3 January 2025 (UTC)</small>
:I would like to copy the images from the book here, as not everyone will find themselves able to access this page from Google each time they check the link; but unfortunately, I don't think that Misplaced Pages's Fair Use image policy has thus far extended to uploading local Fair Use images for the Ref Desk archives. If people think we have a chance, this might be time to press the issue on behalf of one or more images. Alternatively, they might be redrawn from the source at some low level of quality (it really is pretty schematic as it is, presumably due to some anatomic variation that they discuss after the section I quoted). ] (]) 22:14, 27 April 2011 (UTC)
:::In Australia, we drive on the left, and the indicator and wiper stalks are the opposite way to the UK. Having moved back from the UK after 30 years, it took me a while to stop indicating with wipers. ] (]) 05:08, 3 January 2025 (UTC)
::::This depends more on where the car came from I think. For European or American cars it tends to be in the UK direction. For Asian cars or I guess those odd Australian made cars which are out there, it tends to be in the other. See e.g. . The UK being a bigger market I think most manufacturers have come to follow the new UK norm for cars they intend to sell there although I suspect to some extent it's still true in the sense that I think most Asian car brands, at least assemble their cars in the EU or maybe the UK if they're destined for the UK (made a lot of sense pre-Brexit) . It sounds like the new UK norm is fairly recent perhaps arising in the 1980s-1990s after European manufacturers stopped bothering changing that part of the production for the reasons mentioned by Philvoids. As mentioned in one of the Reddit threads, the UK direction does make it difficult to adjust indicators while changing gear which seems a disadvantage which is fairly ironic considering the the UK has much more of a preference for manuals than many other RHD places with the other direction. ] (]) 04:31, 6 January 2025 (UTC)
:::::<small><p>For further clarity, AFAICT, LHD vehicles generally have their indicators on the left and wipers on the right. As mentioned, assuming the gear stick is in the middle which AFAIK it is for most cars by now, this seems the better positioning especially on manual cars since you're much more likely to want to need to indicate while changing gear than you are going to want to adjust your wipers even in the rainy UK. The UK being LHT/RHD especially with their own manufactured cars tended to have the indicators on the right and wipers on the left in the more distant past so again the positions that made most sense. </p><p>While I don't have a source for this going by the history and comments, it sounds to me like what happened is European manufacturers who were primarily making LHD vehicles, with the UK and Ireland their main RHD markets but still small compared to the LHD market stopped bothering changing positions for RHD vehicles as a cost saving measure. So they began to put wipers on the right and indicators on the left even in their RHD vehicles no matter the disadvantage. I'm not so sure what the American manufacturers did or when and likewise the British but I think they were a fairly small part of the market by then and potentially even for them LHD was still a big part of their target market. </p><p>Meanwhile Asian manufacturers however still put their indicators on the right and wipers on the left in RHD vehicles, noting that Japan itself is LHT/RHD. I suspect Japanese manufacturers suspected, correctly, that it well worth the cost of making something else once they began to enter the LHD markets like the US, to help gain acceptance. And so they put the indicators on the left and wipers on the right for LHD vehicles even if they did the opposite in their own home market and continued forever more. Noting that the predominance of RHT/LHD means even for Japanese manufacturers it's generally likely to be their main target by now anyway. </p><p>Later I assume South Korea manufacturers and even later Chinese felt it worth any added cost to increase acceptance of their vehicles in LHT/RHD markets in Asia and Australia+NZ competing against Japanese vehicles which were like this. And this has largely continued even if it means they need to make two different versions of the steering column or whatever. It sounds like the European and American brands didn't bother but they were primarily luxury vehicles in such markets so it didn't matter so much. </p><p>This lead to an interesting case for the UK. For the Asian manufacturer, probably many of them were still making stuff which would allow them to keep putting the indicators on the right and wipers on the left for RHD vehicles as they were doing for other RHD markets mostly Asian. And even if they were assembling them in the EU, I suspect the added cost of needing to ship and keep the different components etc and any difference it made to the assembly line wasn't a big deal. </p><p>So some of did what they were doing for the Asian markets for vehicles destined for UK. If they weren't assembling in the EU, it made even more sense since this was likely what their existing RHD assembly line was doing. But overtime the UK basically adopted the opposite direction as the norm no matter the disadvantages to the extent consumers and vehicle enthusiast magazines etc were complaining about the "wrong" positions. So even Asian manufacturers ended up changing to the opposite for vehicles destined to the UK to keep them happy. So the arguably better position was abandoned even in cases where it wasn't much of a cost saving measure or might have been even adding costs. </p><p>] (]) 05:43, 6 January 2025 (UTC)</p></small>
::I've driven different (automatic) left-hand-drive vehicles with the light stalk on each side, but left side has been more common. Perhaps because the right hand is more likely to be busy with the gear shift? (Even in the US, where automatic has been heavily dominant since before I learned to drive.) -- ] (]) 17:32, 2 January 2025 (UTC)
:It's better for a right-hander to have both hands on the steering wheel regardless of where the gear lever is. See . I suspect the same goes for a left-hander. ] (]) 14:39, 2 January 2025 (UTC)
::I suppose that the question is whether right-handers have an easier time operating the gear stick when changing gears in manual-transmission cars designed for left-hand traffic, with the steering wheel on the right (like in the UK) or right-hand traffic, with the steering wheel on the left (like in most of continental Europe). Obviously, drivers will use their hand at the side where the gear stick is, so if it is in the middle and the driver, behind the wheel, sits in the right front seat, they'll use their left hand, regardless of their handedness. But this may be more awkward for a rightie. Or not.
::--] 16:30, 2 January 2025 (UTC)
:::In my personal experience (more than 10 years driving on each side of the road, in all four combinations of car handedness and road handedness) the question which hand to use for shifting gears is fairly insignificant. Switching from one type of car to the other is a bit awkward though. —] (]) 18:33, 2 January 2025 (UTC)
::::My first car, a ], had the gearstick on the left and the handbreak on the right, which was a bit of a juggle in traffic. ] (]) 19:13, 3 January 2025 (UTC)
== Distinguishing a picture of a sunset from the picture of a sunrise? ==
::Thank you very much for your answer, that was more than helpful! Regards, ''']]'''<sup>]</sup> 11:47, 28 April 2011 (UTC)
Is there a way (if you don't know which way is west and which way is east in a particular location) to distinguish a picture of a sunset from the picture of a sunrise? ] (]) 12:08, 1 January 2025 (UTC)
== Selling spent nuclear fuel ==
:Generally, no, but there are a few tricks that sometimes work. In dry sunny weather, there's more dust in the air at sunset (due to thermals) than at sunrise, making the sky around the sun redder at sunset. But in moist weather, mist has the same effect at sunrise. If the picture is good enough to see ], comparing the distribution of sunspots to the known distribution of that day (this is routinely monitored) tells you where the North Pole of the sun is. At sunset, the North Pole points somewhat to the right; at sunrise, to the left. If you see any ] or ] clouds in the picture, it was a sunset, as such clouds form during the day and disappear around sunset, but absence of such clouds doesn't mean the picture was taken at sunrise. A very large cumulonimbus may survive the night. ] clouds are often very large, expanding into ], in the evening, but are much smaller at dawn as there's more air traffic during the day than at night, making the upper troposphere more moist towards the end of the day. Cirrostratus also contributes to red sunsets and (to lesser extend, as there's only natural cirrostratus) red sunrises. ], ], flowers and flocks of birds may also give an indication. And of course human activity: the beach is busier at sunset than at sunrise. ] (]) 13:41, 1 January 2025 (UTC)
Why don't states that practice ] buy the nuclear waste from states that don't? Is it uneconomical? (If so, by how much?) Or is it just political? I can see why the US would not sell to China, for example, because there is always a chance that any plutonium reprocessed in China could be alleged to enter into their nuclear stockpile, which would be political poison to whomever proposed it in the US. But there are other, safeguards states, like the Netherlands, or Japan, where this wouldn't presumably be a problem. Has this ever been seriously proposed? --] (]) 15:43, 27 April 2011 (UTC)
::Supposing the photograph has high enough resolution to show ]s it can be helpful to know that the pattern of spots at sunrise is reversed left-right at sunset. ] (]) 13:21, 3 January 2025 (UTC)
:::At the equinox, the disk of the Sun with its pattern of sunspots appears to rotate clockwise from sunrise to sunset by 180 degrees minus twice your latitude (taking north positive). At my place, that's 75 degrees. Other times of the year it's less; at the start and end of polar day and polar night, there's no rotation. Sunset and sunrise merge then.
:::And I forgot to mention: cirrostratus clouds will turn red just after sunset or just before sunrise. At the exact moment of sunrise or sunset, they appear pretty white. ] (]) 17:06, 3 January 2025 (UTC)
::::I differ: the same rotation is involved everywhere on Earth. If you stand on tiptoe at a N. or S. pole to take a picture of the Sun it is you who must pirouette 15 degrees per hour to keep facing the Sun. The Earth rotates you at this rate at all non-polar locations. If you stand within the arctic or antarctic circles, for parts of the year the 24-hour night or 24-hour daylight seem to prevent photographs of sunrise or sunset. However the terms "sunrise" and "sunset" can then be interpreted as times that are related to particular timezones which are generally assigned by longitude. In photographing the 24-hour Sun the equatorial rise and set times for your own longitude are significant elevation maxima worth mentioning even though the minimum elevation remains above the horizon. I maintain that the sunspot pattern observed from any location on Earth rotates 360 degrees per 24 hours and that "night", the darkness from sunset to sunrise, is when the Earth's bulk interrupts one's view of the rotation but not the rotation itself which is continuous.
:::::Taking the Earth as reference frame, the Sun rotates around the Earth's spin axis. The observer rotates around his own vertical axis. The better both axes are aligned, the smaller the wobble of the Sun. In the northern hemisphere, it rotates clockwise from about 6 till 18 by 180 degrees minus twice your latitude and counterclockwise at night, in the southern hemisphere it's the opposite. Try a planetarium program if you want to see it. ] shows some sunspots, does things right and is free and open source. ] (]) 10:27, 5 January 2025 (UTC)
:::::]We deprecate the obselete ] and suggest Misplaced Pages references that are free and just one click away (no extra planetarium software needed). The axes of rotation of the Sun and Earth have never in millions of years aligned: the ] is the orbital plane of Earth around the Sun and Earth currently has an ] of about 23.44° without "wobbling" enough from this to concern us here. ] (]) 14:56, 5 January 2025 (UTC)
::::::This isn't my field but sunspots aside, if you know the location and date, I assume the appearance of other astronomical objects like the moon or rarely another star probably Venus, in the photograph should be enough to work out if it's a sunset or sunrise. That said, to some extent by taking into account other details gathered from elsewhere's I wonder if we're going beyond the question. I mean even if you don't personally know which is east or west at the time, if you can see other stuff and you know the location or the stuff you can see is distinctive enough it can be worked out, you can also work out if it's sunset or sunrise just by working out if it's east or west that way. ] (]) 03:54, 6 January 2025 (UTC)
:::::In my experience (Southern England) they tend to be pinker at dawn and oranger(!) at dusk. {The poster formerly known as 87.81.230.195} ] (]) 03:23, 4 January 2025 (UTC)
::::::Pink clouds must result from blending of reddish clouds with the blue sky behind. There's actually more air between the observer and the clouds than behind the clouds, but for that nearby air the sun is below the horizon. ] (]) 10:27, 5 January 2025 (UTC)
::::The questioner asks for interpretation of a single picture. It is beside the point that more would be revealed by a picture sequence such as of changing cloud colours. ] (]) 12:41, 4 January 2025 (UTC)
:Recalling Leonard Maltin's comment about the ''Green Berets'' movie, which was filmed in the American state of Georgia: "Don't miss the closing scene, where the sun sets in the east!" ←] <sup>'']''</sup> ]→ 22:37, 5 January 2025 (UTC)
::Which you can only tell if you know which way is east in the image. Maltin, or his writer, appears to have assumed that Vietnam has a seacoast only on the east, which is wrong. --] (]) 03:46, 6 January 2025 (UTC)
:::Georgia has only an eastern seacoast. ←] <sup>'']''</sup> ]→ 10:31, 6 January 2025 (UTC)
::::<small>] ] (]) 14:18, 6 January 2025 (UTC)</small>
::::So what. Bugs? The claim is about the setting, not the filming location. --] (]) 07:30, 7 January 2025 (UTC)
:::::But as it was filmed in (The US State of) Georgia, it must actually show a sunrise, regardless of what the story line says – how do you know that wasn't what Maltin actually meant? {The poster formerly known as 87.81.230.195} ] (]) 10:35, 7 January 2025 (UTC)
:::::::*Because things filmed for movies often are not actually what they are shown as being, so that wouldn't be interesting and Maltin's guide wouldn't waste space on it. If what they show it as — for example, in '']'' — is wrong or impossible, that could be interesting. --] (]) 17:43, 8 January 2025 (UTC)
::::::I assume (not having seen the film) that, <u>in the story line</u> of '']'' , the closing scene takes place in the late afternoon, which means it shows a sunset. The plot section of our article on the film places the closing scene at or near ], which is on the east coast of Vietnam. This means that Maltin did not make an unwarranted assumption; he was just seeking an excuse to bash the film. --] 13:55, 7 January 2025 (UTC)
:::::::I've seen ] and confirm that the closing scene with End title is an offshore sunset. ] (]) 20:12, 7 January 2025 (UTC)
= January 6 =
:For perspective, clothing worn by technicians who work in laboratories near hallways connected to the reactor core is considered "low level nuclear waste" and can't be driven on non-Federal roadways without police escort. (A bit of hyperbole, perhaps, but not much - that's the regulatory environment that years of paranoia and ] have created). The prospect of actually exporting ''actual nuclear material'' is so far off the political table right now, I can't imagine it ever being discussed by a serious high-level legislator. See from the US Nuclear Regulatory Commission for more information about relevant policy and procedure; particularly, . ] (]) 15:53, 27 April 2011 (UTC)
::(In actual truth, there are only that are legally permitted to accept incoming shipments of low level nuclear waste, including dirty laundry from nuclear facilities). My exaggeration in the previous paragraph was not that far off the mark. ] (]) 15:57, 27 April 2011 (UTC)
== Does the energy belonging to an electromagnetic field, also belong (or is considered to belong) to the space carrying that field? ==
:Sellafield's ] provided reprocessing for material from several nations: Japan, Germany, Switzerland, Spain, Sweden, Italy, Netherlands and Canada. Waste was (and may still be) processed for a fee and returned to the origin. Polititally it seems undesirable for any nation to accept radioactive waste from another nation without a promise to return it. There are also numerous problems with transporting it, not least of which is the reluctance of intervening countries to let nuclear waste pass through, and while some of the public grudgingly admit the need for nuclear power, the need for reprocessing is less obvious. --] (]) 16:01, 27 April 2011 (UTC)
] (]) 18:41, 6 January 2025 (UTC)
::According to ], mining uranium is far cheaper than reprocessing nuclear waste, so it does not make economic sense to buy waste in order to reprocess it. --] (]) 16:06, 27 April 2011 (UTC)
:It would be unusual to express the situation in such terms. Since the notion of energy "belonging to" some entity is not itself a physical concept – any practical approach to energy bookkeeping that satisfies the law of conservation of energy will do – this cannot be said to be wrong. It is, however, (IMO) not helpful. Does an apple belong to the space it occupies? Or does that space belong to the apple? --] 23:37, 6 January 2025 (UTC)
:::Though you could imagine states like the US, who have literally zero long term waste policy at the moment (other than "store it on site at every individual reactor"), might find the service itself to be worth paying a premium for, well beyond what it would get them in terms of fuel. --] (]) 21:15, 27 April 2011 (UTC)
::First, I let you replace the notion of energy "belonging to" some entity, by the notion of energy "attributed to" some entity, or by the notion of energy "carried by" some entity, and the like. In other words, I'm only asking about the abstract relation (no matter what words we use to express it), between the energy and the ''space'' carrying the electromagnetic field, rather than about the specific term "belong to".
::Second, I'm only asking about ''what the common usage is'', rather than about whether such a usage is wrong or helpful.
::The question is actually as follows: Since it's ''accepted'' to attribute energy to an electromagnetic field, is it also ''accepted'' to attribute energy to the ''space'' carrying that field?
::So, is your first sentence a negative answer, also to my question when put in the clearer way I've just put it? ] (]) 03:28, 7 January 2025 (UTC)
:::The answer remains the same. It would be a highly unusual use of language to "attribute" electromagnetic energy to a volume of space, in quite the same way as it would be strange to "attribute" the mass of an apple to the space the apple occupies. But as long as an author can define what they mean by this (and that meaning is consistent with the laws of physics), it is not wrong. --] 13:21, 7 January 2025 (UTC)
::::An electromagnetic field that we may ] conceive to have the form of a massless photon has, like the aforementioned apple (a biological mass) its own unique history, that being a finite path in ]. I reject apparent effort to give spacetime any kind of identity capable of owning, or even anticipating owning or remembering having owned anything at all. Concepts of owning]], attributing] or whatever synonymous wordplay one chooses all assume identification that can never be attached to the spacial <i>location</i> of an em field. The energy of the photon is fully accounted for, usually as heat at its destination, when it is absorbed and no lasting trace remains anywhere. I am less patient than Lambian in my reaction to this OP who under guise of interest in surveying "what is commonly accepted" returns in pursuit of debate by patronisingly "allowing" us to reword his question in abstract "words that don't matter" to make it purportedly clearer and worth responders' time. ] (]) 14:55, 7 January 2025 (UTC)
::::Thank you Lambiam for your full answer. I always appreciate your replies, as well as your assuming good faith, always. ] (]) 15:08, 7 January 2025 (UTC)
: Part of the economic theory which justified the design of THORP in the 1970s was that there would be a market (subject to NNPT restrictions) for plutonium for ]s.(ref:). But the UK didn't build a generation of commercial fast breeder reactors (ref: ), and they didn't really catch on elsewhere either. And given that nuclear weapons delivery systems have become so accurate, and the mania for competing in megatonnage has gone with SALT, START etc., the declared nuclear powers have a surplus of Pu anyway (and so have come to realise that it's a liability rather than a boon). If the proposed new generation FBRs catches on, there might after all be a decent market for Pu, but there seems to be quite a lot of it sitting around anyway (from military applications and existing reprocessing). (from 2001) gives numbers then for surplus Pu and describes the plutonium fuel business as uneconomic and over-subsidised. -- ] ☻ ] 21:50, 27 April 2011 (UTC)
== ISSlights==
= January 8 =
== Australian for double-decked bridge? ==
I have been able to spot the ISS in the Earth's shadow with binos quite often. In fact, it is always observable when it is higher than about 20° above the horizon. I would say that it is roughly magnitude +8 when it is at 45° altitude, which by my calculations corresponds to a lightsource of about 30 Watt. Because over the last three years, the brightness is similar, I think that there is an outside lightsource on the ISS and it isn't light escaping through the windows. Does anyone know more about the lights of the ISS? ] (]) 17:40, 27 April 2011 (UTC)
:What makes you think it isn't just reflecting some combination of the ambient light reaching it from the Earth/Moon/Sun. It has giant solar panels and a shiny metal skin. I think it'd be a pretty decent reflector, and wouldn't need a porch light to be visible at night with some binoculars. --]''''']''''' 18:09, 27 April 2011 (UTC)
::I doubt any external lights are normally on. They would serve no purpose except during an ], robotic operations, or docking/undocking with a visiting vehicle. You're probably seeing reflected earthshine. ] 18:25, 27 April 2011 (UTC)
::::Also, solar panels provide a limited amount of power. And every extra light fixture implies extra wiring, extra fixtures, etc, each one of them having a small chance of breaking and/or becoming a hazard and/or becoming a nuisance to do something else. Also, extra control circuits and extra items in your maintenance checklist. --] (]) 13:51, 28 April 2011 (UTC)
:::It is usually visible for a considerable time after the sun has set at the ground observer's location. Just because it's dark where you are does not mean the ISS is not in sunlight when you see it. ] (]) 18:29, 27 April 2011 (UTC)
::::I know, but if the ISS is not in the Earth's shadow it is magnitude -3.7 or so, easly visible to the naked eye (as bright as Venus). E.g. a few days ago, I could see it entering the Earth's shadow already above the Western horizon, and then it became invisible to the naked eye (brightness dropping rapidly from -3.7 to about +8). In binoculars it is then still visible. Then, when it rises toward the Zenith it actually brightens a bit to magnitude +7 or so and then, when it moves toward the East and starts to set, it becomes less bright. ] (]) 18:50, 27 April 2011 (UTC)
:::::(I'm going to assume that you meant '''-'''7 in the post above). The apparent brightness of the ISS viewed with the naked eye or through binoculars will depend on a number of factors. Less atmospheric haze, skyglow, or residual twilight on a given evening and time will make the station appear proportionately brighter because it will be seen against a darker background sky. Less haze and good seeing will also scatter less of the station's light on its way to you, meaning that it will be genuinely brighter as viewed, even if the amount of light it reflects is unchanged. Of course, it's not a good idea to assume that the amount of reflected light is unchanged—in fact it will vary quite a bit. The amount of light reflected will depend quite heavily on the relative position and orientation of station, Sun, and Earth-based observer. The moderately-experienced stargazer will be familiar with the swift (and often periodic) variations in apparent brightness associated with inactive satellites and other tumbling space debris that rapidly change their orientation relative to the Sun and Earth. While the ISS isn't tumbling, it's apparent orientation relative to the observer changes as it arcs across the sky. Usually this effect is subtle, but if one is in the right place at the right time one can get very bright specular reflections off the broad, flat solar panels. These so-called ]s are most often associated with the ] communication satellites, but observers have also recorded ISS flares— has some incredible photographs. ](]) 14:12, 28 April 2011 (UTC)
On a ] (or on any other kind of map, like a track diagram), what symbol represents a ] which is directly above and ] with another railroad which is either on a lower deck of the same bridge, or else is ] (as in, for example, a narrow-gauge line on a ] above a standard-gauge one)? ] (]) 06:35, 8 January 2025 (UTC)
:diminished brightness when closer to the horizon could be caused by the greater distance that the reflected light has to pass through the air to reach you.] (]) 21:28, 27 April 2011 (UTC)
::There is a reason why distant objects appear brighter: Viewed from the moon it self the moon dust is quite dark, but from the earth the moon looks so bright it shines, I think that's probably part of the effect you're noticing. have a look at the pics on our ] article, and if you're still not convinced, do a google image search for telescope iss photo, there are no obvious external lights to be seen. ] (]) 23:27, 27 April 2011 (UTC)
:Our ] article only lists two multi-level bridges in Australia, neither of which seem to fit your criteria. ] (]) 19:16, 8 January 2025 (UTC)
::: Virtualy all the light you see reflected from the ] is from the sun. This can be demonstrated by the fact that the brightness (and thus visibility) of the passes over a particular spot on the earth's surface are related to the passage of the station through the still present sunlight high above the observer, although the ground is in darkness. The station is never visible from the ground by naked eye more than about three hours after sunset because it passes throught the earth's full shadow when observed by a ground observer more than (say) three hours after sunset. The same principle applies before dawn. The station is visible from earth during evenings or pre-dawn periods even when there is no visible moon. I get my info from ] (]) 07:58, 28 April 2011 (UTC)
{{od}}
I think this thread is going off the rails a bit, perhaps I was not so clear in my postings here :) I'm talking about the ISS being in the complete shadow of the Earth, and then it is "invisible", but actually not quite invisible, you can still see it in binoculars. It seems consistently magnitude +8 to me when it is 45° above the horizon (and obviously a bit brighter when it is higher in the sky, but I have fewer observations of such cases and because it is then moving fast, it more difficult to estimate brightness). If you attribute that to a lightsource on board the ISS, you can compute that you need that lightsource to be about 30 Watt. You can easily imagine that 30 Watt can escape through the windows, or you could postulate that there is an outboard light that is always burning.
::Clarification: in this case, "Australian" is meant figuratively (as in that ] ad) -- what I was really asking was the representation of such a bridge on a map. ] (]) 01:03, 9 January 2025 (UTC)
Now, Jayron32 says that it could be due to reflection of ambient light from the Moon, the Earth etc. But we can discount the Moon, because you can see the ISS in the shadow just as well during New Moon. Also, if the ISS is in the Earth's shadow, you won't have reflected sunlight from the Earth shining on the ISS. Then what remains are city lights. Now, where I live, there is a fair degree of light pollution, so you could imagine that this is possible.
:::What Fosters ad? That link doesn't help, and Australians don't drink Fosters, so won't have seen any ad for it. ] (]) 01:15, 9 January 2025 (UTC)
To make the ISS appear to be magnitude +8, you need a total of 15 Watts reflecting off it (half of the 30 Watt because that 30 Watts was assumed to radiate isotropically). But to get 15 Watts of city-lights reflecting off the ISS, you need quite a bit more than of 10 GigaWatt of lights on the ground near a radius of a few hundred kilometers of where I am (I get 14 Gigagawatts when I compute flux by taking the reflecting area of the ISS its width times its length, which is obviously a big overestimate, and then assuming that most light sources are where the ISS apears 45° above the horizon, which is also not realistic). If I assume that most city lights have a luminous efficacy of 60 lumens/Watt instead of the 15 lumens/watt I've been assuming all along, you still are left with at least about 3 GigaWatts of street lighting which still doesn't sound realistic to me.
::::Nonsense. I have it on good authority—Fosters own ads on TV in the US two decades ago—that all Australians do nothing but drink Fosters all day because it is the one true Australian beer. DO NOT ARGUE WITH YOUR CAPITALIST OVERLORDS' CULTURAL APPROPRIATION! Um, I mean, ] had a bunch of ad campaigns promoting their image as being Australian. See its article for details. Search youtube for {{tq|fosters australian}} to see some examples. ] (]) 01:28, 9 January 2025 (UTC)
:Nit pick, at grade means at the same height, you mean grade separated. ] (]) 05:32, 9 January 2025 (UTC)
::It's all grade-separated (rail-line vs rail-line). I assume they mean one rail-line is on the ground (in contrast with being on a bridge as the first example). The term is annoying, but we're stuck with terms like ]. ] (]) 05:38, 9 January 2025 (UTC)
:::Yes, in this case "at grade" means at ground level -- with the narrow-gauge line on the trestle directly above it! ] (]) 06:25, 9 January 2025 (UTC)
:Only example of a multi-level bridge or viaduct I've found so far in the world having a WP article is ]. ] (]) 06:32, 9 January 2025 (UTC)
:There is one on the ] (no photo of this detail in the article, but a few in ]). I've seen mentions of some others that are long-gone (or have one or both levels now used for other modes). Lots of pictures of old New York City have an el with rails in the street under it, but nothing still existing or in-use. ] (]) 07:25, 9 January 2025 (UTC)
::Right, so how '''would''' one show such a bridge on a map? ] (]) 22:51, 9 January 2025 (UTC)
Instead, assuming that you simply have 30 Watts of lights (or perhaps just 10 Watts of higher luminous efficacy light source than an incandescent light bulb), escaping from the ISS, sounds more realistic. The only thing then is that the ISS seems to have the same brightness consistently over the last few years when I have seen it in the Earth's shadow. So, that's why I was wondering whether there is a (small) light source on the outside of the ISS that is always switched on. ] (]) 15:12, 28 April 2011 (UTC)
= January 10 =
: You may simply be seeing cabin light escaping through the , a 510mm diameter circular glass window on the ISS' ] module. Subsequent to ], the ] is installed at that location, and when it is in use it can be configured to cabin light entering the WORF (and thus escaping to be seen by you). If that's the case, if you can find a mission schedule that shows when the WORF is and isn't swung over the window, if that correlates with changes in the apparent brightness of the unilluminated ISS, then the window is implicated. But you'd probably need a better calibrated system than binoculars and human eyes, and quite a lot of observations, to be sure. ] (]) 15:40, 28 April 2011 (UTC)
:: ...although they probably keep the external shutter on that window closed most of the time, to avoid it getting scuffed up unnecessarily (by micrometeorites). ] (]) 15:47, 28 April 2011 (UTC)
== Do fluorescent lights have a preferred frequency when they flicker? ==
{{resolved}}
As the title says, I'm wondering about the flicker in fluorescent lights. Not a flicker as they power up or down, but a sustained flicker that indicates something is not functioning properly. I observed this today, and while the pulses were not of even intensity (very bright pulses ~1/sec), I began to suspect the underlying frequency (almost too fast to notice) may be related to the 60 Hz of AC power. Is there any merit to this idea? Does the frequency of AC current have any effect on the frequency of flicker in the light? Thanks, ] (]) 21:47, 27 April 2011 (UTC)
:See ]. ] (]) 21:57, 27 April 2011 (UTC)
::Oops, I should have checked there more thoroughly. Thanks! ] (]) 23:29, 27 April 2011 (UTC)
= April 28 =
== dna ==
Does DNA have physical potential energy in addition to chemical as it is coiled like a spring, similar to a rubber band that is twisted to form coils on coils? Is there tension within the structure of the DNA? <span style="font-size: smaller;" class="autosigned">—Preceding ] comment added by ] (]) 00:15, 28 April 2011 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
:I don't think there is a clear distinction between "physical" and "chemical" on the molecular scale, at that scale isn't it all ]?. ] (]) 00:22, 28 April 2011 (UTC)
:I'm pretty sure DNA '''does''' have potential energy associated with its springiness, twistiness, ] etc. See e.g. the first few papers here . They discuss how ], strain, ], and topology can influence gene expression. As Vespine alludes above, these forces ''are'' the result of chemical/electromagnetic interactions, but they can produce effects similar to what you see at the macroscopic scale. ] (]) 00:39, 28 April 2011 (UTC)
::Generally this is termed as ]. But the energy involved is managed very actively - ] wrap the DNA around themselves, ]s release tension, ]s unwrap the DNA so ]s can copy it, etc. Also see ], a neat little object. There are bits of data (such as the physical binding of DNA polymerases on the ] and ]) that make it pretty clear that the DNA in the cell really is handled more like the tape going through a tape recorder than as some immobile passive object as is sometimes implied by drawings you might see. ] (]) 00:57, 28 April 2011 (UTC)
So is part of the DNAs mass this tensile energy? <span style="font-size: smaller;" class="autosigned">—Preceding ] comment added by ] (]) 01:55, 28 April 2011 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
:::Wow. Must be, but I don't even know how you formalize this. A strained supercoiled DNA must have higher-energy lowest-energy states for torsional vibrations of some sort, I suppose. You'd never be able to measure the difference in mass, I don't think - it would be something on the order of terahertz, I think. I hope there's a hard core biophysicist hero to chime in here. =) ] (]) 02:11, 28 April 2011 (UTC)
Or just a softcore biophysicist that knows more than you. <span style="font-size: smaller;" class="autosigned">—Preceding ] comment added by ] (]) 14:56, 28 April 2011 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
You might not be able to measure one strand but extrapolate that to a whole human body. <span style="font-size: smaller;" class="autosigned">—Preceding ] comment added by ] (]) 02:30, 28 April 2011 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
In classic American cartoons I-beams are always reddish orange. It occurred to me recently that this is not the default color for steel. I decided I-beams were either previously this color for some reason unknown to me, or the cartoon illustrators used that color instead of black/dull gray because it looked better on the screen. Does anyone know the real reasons? ] (]) 01:26, 28 April 2011 (UTC)
:Oxidation] (]) 01:52, 28 April 2011 (UTC)
Red lead paint for protection against oxidation.] (]) 02:08, 28 April 2011 (UTC)
Iron(III)oxide based primer paint. It's definitely not lead based paint unless the beams are older than your grandfather! ] (]) 14:36, 28 April 2011 (UTC)
== Is dishwashing liquid safe on plastic water bottles? ==
Specifically, mine are from Nalgene Outdoors, #2's, and I'd consider buying #4's. Does dishwashing liquid cause leaching from those? Thanks. ] (]) 05:19, 28 April 2011 (UTC)
:I don't see why they shouldn't cope with regular detergent, but read the instructions that came with the bottle and our article on ]. Make sure you wash them out after your trip and that they're thoroughly dried before replacing the cap.--]|] 15:10, 28 April 2011 (UTC)
::Yeah. I've only bought their LDPE bottles so far. Their shipping and constant availability of coupon codes are very affordable. ] (]) 15:42, 28 April 2011 (UTC)
== ] ==
It is found in our bodies. Is it released? If so, how?
Is it found in air? The article says that in concentrations of more than 100 parts per million will produce a foul smell. Does that mean that it may or is found in air, but because it is so dilute, we cannot smell it?] (]) 05:35, 28 April 2011 (UTC)
:Micro-organisms produce it in the ]s under ] conditions. ] smells sometimes like H<sub>2</sub>S. {{doi|10.1016/j.jchromb.2009.05.026}}; might be a good read. --] (]) 07:23, 28 April 2011 (UTC)
:The human nose is very sensitive to the presence of ], which is why ] is added to natural gas to give the otherwise odorless gas it's characteristic smell - so you can detect even small leaks. The article ] says that 0.00047 ppm in air is the point where 50% of people can detect the odor (]). At 100 ppm eye damage can occur, and the olfactory nerve is paralyzed. (So, actually, at concentrations above 100 ppm, you *no longer* will smell anything.) When you're talking about "found in our bodies" you might be talking about the statement "The human body produces small amounts of H2S and uses it as a signaling molecule", rather than just gut bacterial production. The section ] notes that "The gas is produced from ] by the enzymes ] and ]." I can't find the figures at the moment, but the concentrations which are active in signaling are very low; lower than the nasal detection limit, if I recall correctly. -- ] (]) 16:11, 28 April 2011 (UTC)
== large bowel ==
What would be the weight of an empty adult human large bowel (colon)? —Preceding ] comment added by ] (]) </span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
== What are the most dangerous jobs with positions available? ==
If anyone or myself decides that there's no more hope for their lives and that it's no longer worth living, perhaps it should end only by serving others. The military would detect suicidal tendencies long before the soldier hits the battlefield, so what civilian occupations could one hope to die on the job from trying to do exactly what the job entails? --] (]) 10:59, 28 April 2011 (UTC)
:Found an article that lists fishing as having the highest fatality rate: http://www.careerbuilder.com/Article/CB-777-Career-Growth-Change-Worlds-Most-Dangerous-Jobs/ - Also mentions, amongst others, roofing and logging. ] (]) 11:07, 28 April 2011 (UTC)
::"Farming is one of the most dangerous occupations in the United States. More than 700 lives were lost in farm-related activities last year. Another 150,000 agricultural workers suffered disabling injuries from work- related accidents," per . --] (]) 13:24, 28 April 2011 (UTC)
:::President of the US seems pretty dangerous. 8 out of 44 US presidents have died in office (about 18,000 deaths per 100,000), and any US citizen over the age of 35 can try for that job in 1.5 years (though it is not an easy job to get by any metric). A job with a roughly 100% fatality rate is Pope, but it is hard to predict in advance when that job will have an opening. ] (]) 13:40, 28 April 2011 (UTC)
::::Dying while ''holding'' a job is not the same as dying ''because'' of a job. An accountant can die of cancer, and it doesn't mean that accountancy is what killed him. The cancer did. Contrawise, when a lumberjack dies because a tree lands on his head while working, it makes much more sense to say that he died of lumberjacking. As far as presidency goes, there have only been 4 assassinated presidents, rather than Presidents who died from health effects unrelated to being President. That's still a mortality rate of 9%, which is pretty high for any profession, however given that there have only been 44 presidents, that number has a fairly high ]. --]''''']''''' 14:06, 28 April 2011 (UTC)
:::::Point taken. In any case, it is a very bad idea to take a dangerous job in the hopes that it will kill you because you would most likely putting others at risk. If you are a fisherman and go overboard, then someone might go into the water after you in an effort to rescue you and die because of it. As an additional question though, what if the stress of the job caused the accountant to have high blood pressure which was a contributing factor to a fatal heart attack? Would he count in the metric then? ] (]) 14:40, 28 April 2011 (UTC)
:::::::An epidemiologist would call that the ] rate, not the ] rate, to help keep the statistics straight. ] (]) 17:09, 28 April 2011 (UTC)
:::Every fisherman knows not to go in after a man overboard, unless they want to die too! <span style="font-size: smaller;" class="autosigned">—Preceding ] comment added by ] (]) 14:54, 28 April 2011 (UTC)</span><!-- Template:UnsignedIP --> <!--Autosigned by SineBot-->
If you are really serious about the " by serving others " part, there are numerous humanitarian aid organisations crying out for dedicated volunteers around the world. The Afrcan states. Sth. America, asia and many of those locations are quite dangerous. You might find something worthy of your last days, or heaven forbid, something worth living for.] (]) 18:08, 28 April 2011 (UTC)
::Really? I thought for example the ] only takes a small fraction of applicants. Look up the details, and the "way you can help" always boils down to money. Capital is rare and precious, but humans are an unwanted waste product in any country. ] (]) 19:12, 28 April 2011 (UTC)
:::The British charity is only looking for "qualified professionals with at least two years’ post-qualification experience." ] (]) 19:33, 28 April 2011 (UTC)
:] or ]. I haven't done the numbers, but the fatalities rate - including the experimental phase - must be quite high. There might be experimental positions in teh future that benefit from someone willing to die. It is quite physically demanding, though, and as we know you can't just walk in. Depends what you mean by "positions available". '''Grandiose''' <span style="color:gray">(], ], ]) </span> 18:19, 28 April 2011 (UTC)
::Related is which, proponents say, is not a ''suicide mission'' but a ''colonization''; there have been several hundred volunteers so far. ] (]) 20:25, 28 April 2011 (UTC)
Or maybe you could do a tour of the blood donation centers (assuming your blood is usable).] (]) 20:37, 28 April 2011 (UTC)
== Brain to Body Mass Ratio ==
Misplaced Pages currently contains an article on this subject that lists a small number of species. Where can I find, or can you provide, a more complete list, from the smallest animal for which data exists to the largest?] (]) 18:48, 28 April 2011 (UTC)
: gives a more complete picture of the data, at least for vertebrates. I've seen more extensive tables in books, but not on the web. Note that because the brain increases in size at a lower rate than the body as a whole, the brain-to-body-size ratio is widely considered not to be very meaningful. The vertebrate with the largest value is the hummingbird; the one with the smallest value is the blue whale. Most scientists consider a parameter called the ] to be the most meaningful measure of the relation between brain and body size. ] (]) 21:42, 28 April 2011 (UTC)
== Unidentified Flower (or maybe Fungi?) ==
Hi folks. I've been going through my old photos trying to find images suitable for WP articles. I came across the below photo, but was not able to identify the plant. This bloom appeared in September in the ] of British Columbia. It was growing in the shade of a black Spruce. Would appreciate any help in trying to identify this little guy. ] ] 21:06, 28 April 2011 (UTC)
]
== Drug that removes the ability to resist ==
A while ago I read about a drug that "removes one's ability to resist". Someone affected by the drug will obey most commands. It's powder form, begins with C and is common in South America. I can't remember what it's called, does anybody know?--] (]) 21:47, 28 April 2011 (UTC)
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I wanted to try it just today, but I had to exchange the under-desk elliptical trainer I got for Christmas for a different model with more inclined treadles because with the one I got, my knees would hit the desk at the top of every cycle. Anyway, I was hoping someone else tried it first (preferably as part of a formal scientific study) so I would know if I could control whether I got a runner's high from exercise or not? 2601:646:8082:BA0:9052:E6AF:23C7:7CAF (talk) 03:09, 28 December 2024 (UTC)
Also, sorry for adding to my own question, but here's a related one: is it known whether the length of a person's dopamine receptor D4 (which is inversely correlated with its sensitivity) influences whether said person gets a runner's high from exercise (and especially from low-intensity exercise)? 2601:646:8082:BA0:9052:E6AF:23C7:7CAF (talk) 03:14, 28 December 2024 (UTC)
What is the difference between an auxotroph and a fastidious organism? It seems to me the second one would have more requirements than the first one, but the limit between the two definitions is rather unclear to me.
Symbiosis aside, it would seem that most auxotrophs would be fastidious organisms, but there could be many more fastidious organisms that aren't auxotrophs. Auxotrophs specifically can't produce organic compounds on their own. There are a LOT of organisms that rely on the availability of non-organic nutrients, such as specific elements/minerals. For instance, vertebrates require access to calcium. Calcium is an element; our inability to produce it does not make us auxotrophs.
But perhaps symbiosis would allow an organism to be an auxotroph without being a fastidious organism? For instance, mammals tend to have bacteria in our guts that can digest nutrients that our bodies can't on their own. Perhaps some of those bacteria also assemble certain nutrients that our bodies can't? -- Avocado (talk) 14:27, 28 December 2024 (UTC)
December 28
Paper with wrong enantiomer in a figure
In the following reference:
Quack, Martin; Seyfang, Georg; Wichmann, Gunther (2022). "Perspectives on parity violation in chiral molecules: theory, spectroscopic experiment and biomolecular homochirality". Chemical Science. 13 (36): 10598–10643. doi:10.1039/d2sc01323a. PMID36320700.
I saw an ad promoting a device which presumable splits water into
hydrogen and oxygen and infuses water with extra hydrogen, to
a claimed surplus of perhaps 5 ppm, which doesn’t seem like much. I found a review article which looked at several dozen related studies that found benefits:https://pmc.ncbi.nlm.nih.gov/articles/PMC10816294/ .
I’ve noticed that carbon dioxide or chlorine (chloramine?) dissolved in water work their way out pretty easily, so I wonder if dissolved hydrogen could similarly exit hydrogen enriched water and be burped or farted out, rather than entering the blood stream and having health benefits. is it more than the latest snake oil? Edison (talk) 23:01, 28 December 2024 (UTC)
It's conceivable it might take out the chloramine, I guess. I don't think there's very much of it, but it tastes awful, which is why I add a tiny bit of vitamin C when I drink tap water. It seems to take very little. Of course it's hard to tell whether it's just being masked by the taste of the vitamin C. --Trovatore (talk) 02:12, 29 December 2024 (UTC)
I don't know if it is rubbish or not but a quick look on the web indicates to me it is notable enough for Misplaced Pages. I didn't see anything indicating it definitely did anything useful so such an article should definitely have caveats. I haven't seen any expression of a potential worry either so it isn't like we'd be saying bleach is a good medicine for covid. NadVolum (talk) 23:07, 1 January 2025 (UTC)
In a harmonic oscillator, reaching the highest point involves - both a minimal kinetic energy - along with a maximal potential energy, whereas reaching the lowest point involves - both a maximal kinetic energy - along with a minimal potential energy. Thus the mechanical energy becomes the sum of kinetic energy + potential energy, and is a conserved quantity.
So I wonder if it's reasonable to define also "potential velocity" vs. "kinetic velocity", and claim that in a harmonic oscillator, reaching the highest point involves - both a minimal "kinetic velocity" (i.e. involves what we usually call a rest) - along with a maximal "potential velocity", whereas reaching the lowest point involves - both a maximal "kinetic velocity" (i.e. involves what we usually call the actual velocity) - along with a minimal "potential velocity". Thus we can also define "mechanical velocity" as the sum of "kinetic velocity" + "potential velocity", and claim that the mechanical velocity is a conserved quantity - at least as far as a harmonic oscillator is concerned.
Reasonable?
Note that I could also ask an analogous question - as to the concept of "potential momentum", but this term is already used in the theory of hidden momentum for another meaning, so for the time being I'm focusing on velocity.
Per my suggestion, the ratio between distance and time is not called "velocity" but rather "kinetic velocity".
Further, per my suggestion, if you don't indicate whether the "velocity" you're talking about is a "kinetic velocity" or a "potential velocity" or a "mechanical velocity", the very concept of "velocity" alone has no meaning!
On the other hand, "potential velocity" is defined as the difference between the "mechanical velocity" and the "kinetic velocity"! Just as, this is the case if we replace "velocity" by "energy". For more details, see the example above, about the harmonic oscillator. HOTmag (talk) 15:14, 29 December 2024 (UTC)
You could define the potential velocity of a body at a particular height as the velocity it would hit the ground at if dropped from that height. But the sum of the potential and kinetic velocities would not be conserved; rather would be constant. catslash (talk) 18:54, 29 December 2024 (UTC)
'Potential velocity' has no meaning. You seem to be arguing that in a system where energy is conserved, but is transforming between kinetic and potential energy, (You might also want to compare this to conservation of momentum.) then you can express that instead through a new conservation law based on velocity. But this doesn't work. There's no relation between velocity and potential energy.
In a harmonic oscillator, the potential energy is typically coming from some central restoring force with a relationship to position, nothing at all to do with velocity. Where some axiomatic external rule (such as Hooke's Law applying, because the system is a mass on a spring) happens to relate the position and velocity through a suitable relation, then the system will then (and only then) behave as a harmonic oscillator. But a different system (swap the spring for a dashpot) doesn't have this, thus won't oscillate. Andy Dingley (talk) 00:00, 30 December 2024 (UTC)
Let me quote a sentence from my original post: Thus we can also...claim that the mechanical velocity is a conserved quantity - at least as far as a harmonic oscillator is concerned.
You have defined some arbitrary values for new 'velocities', where their only definition is that they then demonstrate some new conservation law. Which is really the conservation of energy, but you're refusing to use that term for some reason.
As Catslash pointed out, the conserved quantity here is proportional to the square of velocity, so your conservation equation has to include that. It's simply wrong that any linear function of velocity would be conserved here. Not merely we can't prove that, but we can prove (the sum of the squares diverges from the sum) that it's actually contradicted. For any definition of 'another velocity' which is a linear function of velocity.
It is a law of conservation of sanity. Lacking a definition of potential energy, other than by having been informed that kinetic energy + potential energy is a conserved quantity, there is not much better we can do. --Lambiam11:20, 31 December 2024 (UTC)
We have a perfectly viable definition of potential energy. For a pendulum it's based on the change in height of the pendulum bob against gravity. For some other oscillators it would involve the work done against a spring. Andy Dingley (talk) 16:33, 31 December 2024 (UTC)
Oops, I mistyped. I meant to write:
"Lacking a definition of potential velocity, other than by having been informed that kinetic velocity + potential velocity is a conserved quantity, there is not much better we can do."
Put two equally sized drops, one of each liquid, on a warm surface, wait for them to evaporate, and compare how much salt residue each leaves? Not very precise or measurable, but significant differences should be noticeable. {The poster formerly known as 87.81.230.195} 94.1.223.204 (talk) 10:21, 30 December 2024 (UTC)
The principle is sound, but the residue from one drop won't be measurable using kitchen equipment -- better to put equal amounts of each liquid in two warm pans (use enough liquid to cover the bottom of each pan with a thin layer), wait for them to evaporate and then weigh the residue! Or, if you're not afraid of doing some algebra, you could also try an indirect method -- bring both liquids to a boil, measure the temperature of both, and then use the formula for boiling point elevation to calculate the saltiness of each! 2601:646:8082:BA0:BD1B:60D8:96CA:C5B0 (talk) 18:22, 30 December 2024 (UTC)
Presumably the liquid preparations are not simple saline solutions, but contain other solutes - or else one could simply use a hydrometer. It is unlikely that Lambian is afraid of doing some algebra. catslash (talk) 18:57, 30 December 2024 (UTC)
Assuming the liquid preparations are water-based and don't contain alcohols and/or detergents one can measure their rates of dispersion. Simply add a drop of food dye to each liquid and then time how rapidly droplets of each liquid disperse in distilled water. Materials needed: food dye, eye dropper, distilled water, small clear containers and a timer.Modocc (talk) 21:09, 30 December 2024 (UTC)
The colligative properties of a solution will indicate its molarity, but not identify the solute. Liquid preparations that might be found in a kitchen are likely to contain both salt and sugar. Electrical conductivity is a property that will be greatly affected by the salt but not the sugar (this does not help in distinguishing Na from K ions though). catslash (talk) 22:23, 30 December 2024 (UTC)
Quantitative urine test-strips for sodium seem to be available. They're probably covering the concentration range of tens to hundreds millimolar. DMacks (talk) 00:58, 2 January 2025 (UTC)
Thanks, test strips seem more practical in the kitchen setting than an ohmmeter (why not call it a "mhometer"?), for which I'd need to devise a way (or so I think) to keep the terminals apart at a steady distance. Test strips require a colour comparison, but I expect that a significant difference in salinity will result in a perceptible colour difference when one strip is placed across the other. Only experiment can tell whether this expectation will come true. Salinity is usually measured in g/L; for kitchen preparations a ballpark figure is 1 g/L. If I'm not mistaken this corresponds to (1 g/L) / (58.443 g/mol) ≈ 0.017 M = 17 mM. I also see offers for salinity test strips, 0–1000 ppm, for "Science Education". --Lambiam11:40, 2 January 2025 (UTC)
Test strips surely come with a printed color-chart. But if all you are trying to do is determine which is more salty, then that's even easier than quantifying each separately. Caveat for what you might find for sale: some "salinity" tests are based on the chloride not the sodium, so a complex matrix that has components other than NaCl could fool it. DMacks (talk) 18:44, 2 January 2025 (UTC)
The (uncommon?) terms "relativistic length", and "relativistic time".
1. In Misplaced Pages, the page relativistic length contraction is automatically redirected to our article length contraction, which actually doesn't mention the term "relativistic length" at all. I wonder if there is an accepted term for the concept of relativistic length.
2. A similar qusestion arises, at to the concept of relativistic time: The page relativistic time dilation, is automatically redirected to our article time dilation, which prefers the abbreviated term "time dilation" (59 times) to the term "relativistic time dilation" (8 times only), and nowhere mentions the term "relativistic time" alone (i.e. without the third word "dilation") - although it does mention the term "proper time" for the shortest time. Further, this article doesn't even mention the term "dilated time" either. It does mention, though, another term: coordinate time, but regardless of time dilation in Special relativity. To sum up, I wonder what's the accepted term used for the dilated time (mainly is Special relativity): Is it "coordinate time"? "Relativistic time"?
Are you reading these things as "contraction of relativistic length" etc.? It is "relativistic contraction of length" and "relativistic dilation of time". --Wrongfilter (talk) 09:37, 30 December 2024 (UTC)
When I wrote: The page relativistic time dilation is automatically redirected to our article time dilation which...nowhere mentions the term "relativistic time" alone (i.e. without the third word "dilation"), I had already guessed that the term "dilation of relativistic time" (i.e, with the word "dilation" preceding the words "relativistic time") existed nowhere (at least in Misplaced Pages), and that this redirected page actually meant "relativistic dilation of time". The same is true for the redirected page "relativistic length contraction": I had already gussed it didn't mean "contraction of relativistic length", because (as I had already written): the article length contraction...doesn't mention the term "relativistic length" at all.
Anyway, I'm still waiting for an answer to my original question: Are there accepted terms for the concepts, of relativistic length - as opposed to proper length, and of relativistic time - as opposed to proper time? HOTmag (talk) 10:12, 30 December 2024 (UTC)
A term that will be understood in the context of relativistic length contraction is relative length – that is, length relative to an observer. --Lambiam10:55, 31 December 2024 (UTC)
Thank you. The middle source uses the term "comparative length", rather than "relative length". I couldn't open the third source. HOTmag (talk) 08:04, 1 January 2025 (UTC)
The text under the graph labelled Comparative length on page 20 of the middle source reads:
Graph of the relative length of a stationary rod on earth, as observed from the reference frame of a traveling rod of 100cm proper length.
Is there any metric unit whose ratio is not power of 10, and is divisible by 3? Is there any common use for things like "2⁄3 km", "5⁄12 kg", "3+1⁄6 m"?
Is a one-tenth of nautical mile (185.2 m) used in English-speaking countries? Is there a name for it?
What is more physiological (for a right-hander) left-hand drive or right-hand drive?
Has anyone determined whether it is better for a right-hander to have the left hand on the steering wheel and the right hand on the gear shift stick, or the other way round? Are there other tests of whether left-hand drive or right-hand drive is physiologically better (for a right-hander at least)? 178.51.7.23 (talk) 12:03, 1 January 2025 (UTC)
Supplementary question: I've only driven right-hand-drive vehicles (being in the UK) where the light stalk is on the left of the steering column and the wiper & washer controls are (usually) on the right. On a l-h-drive vehicle, is this usually the same, or reversed? {The poster formerly known as 87.81.230.195} 94.6.84.253 (talk) 12:12, 2 January 2025 (UTC)
Modern cars are designed for mass production in RH- and LH-drive versions with a minimum difference of parts. Steering columns with attached controls are therefore unchanged between versions. Philvoids (talk) 12:29, 2 January 2025 (UTC)
In the UK, sales of new automatics have just recently overtaken manuals - so probably still more manuals than automatics on the road. catslash (talk) 14:37, 2 January 2025 (UTC)
This may be tied to the rise of EVs, since they have automatic transmissions by default. {The poster formerly known as 87.81.230.195} 94.6.84.253 (talk) 05:29, 3 January 2025 (UTC)
In Australia, we drive on the left, and the indicator and wiper stalks are the opposite way to the UK. Having moved back from the UK after 30 years, it took me a while to stop indicating with wipers. TrogWoolley (talk) 05:08, 3 January 2025 (UTC)
This depends more on where the car came from I think. For European or American cars it tends to be in the UK direction. For Asian cars or I guess those odd Australian made cars which are out there, it tends to be in the other. See e.g. . The UK being a bigger market I think most manufacturers have come to follow the new UK norm for cars they intend to sell there although I suspect to some extent it's still true in the sense that I think most Asian car brands, at least assemble their cars in the EU or maybe the UK if they're destined for the UK (made a lot of sense pre-Brexit) . It sounds like the new UK norm is fairly recent perhaps arising in the 1980s-1990s after European manufacturers stopped bothering changing that part of the production for the reasons mentioned by Philvoids. As mentioned in one of the Reddit threads, the UK direction does make it difficult to adjust indicators while changing gear which seems a disadvantage which is fairly ironic considering the the UK has much more of a preference for manuals than many other RHD places with the other direction. Nil Einne (talk) 04:31, 6 January 2025 (UTC)
For further clarity, AFAICT, LHD vehicles generally have their indicators on the left and wipers on the right. As mentioned, assuming the gear stick is in the middle which AFAIK it is for most cars by now, this seems the better positioning especially on manual cars since you're much more likely to want to need to indicate while changing gear than you are going to want to adjust your wipers even in the rainy UK. The UK being LHT/RHD especially with their own manufactured cars tended to have the indicators on the right and wipers on the left in the more distant past so again the positions that made most sense.
While I don't have a source for this going by the history and comments, it sounds to me like what happened is European manufacturers who were primarily making LHD vehicles, with the UK and Ireland their main RHD markets but still small compared to the LHD market stopped bothering changing positions for RHD vehicles as a cost saving measure. So they began to put wipers on the right and indicators on the left even in their RHD vehicles no matter the disadvantage. I'm not so sure what the American manufacturers did or when and likewise the British but I think they were a fairly small part of the market by then and potentially even for them LHD was still a big part of their target market.
Meanwhile Asian manufacturers however still put their indicators on the right and wipers on the left in RHD vehicles, noting that Japan itself is LHT/RHD. I suspect Japanese manufacturers suspected, correctly, that it well worth the cost of making something else once they began to enter the LHD markets like the US, to help gain acceptance. And so they put the indicators on the left and wipers on the right for LHD vehicles even if they did the opposite in their own home market and continued forever more. Noting that the predominance of RHT/LHD means even for Japanese manufacturers it's generally likely to be their main target by now anyway.
Later I assume South Korea manufacturers and even later Chinese felt it worth any added cost to increase acceptance of their vehicles in LHT/RHD markets in Asia and Australia+NZ competing against Japanese vehicles which were like this. And this has largely continued even if it means they need to make two different versions of the steering column or whatever. It sounds like the European and American brands didn't bother but they were primarily luxury vehicles in such markets so it didn't matter so much.
This lead to an interesting case for the UK. For the Asian manufacturer, probably many of them were still making stuff which would allow them to keep putting the indicators on the right and wipers on the left for RHD vehicles as they were doing for other RHD markets mostly Asian. And even if they were assembling them in the EU, I suspect the added cost of needing to ship and keep the different components etc and any difference it made to the assembly line wasn't a big deal.
So some of did what they were doing for the Asian markets for vehicles destined for UK. If they weren't assembling in the EU, it made even more sense since this was likely what their existing RHD assembly line was doing. But overtime the UK basically adopted the opposite direction as the norm no matter the disadvantages to the extent consumers and vehicle enthusiast magazines etc were complaining about the "wrong" positions. So even Asian manufacturers ended up changing to the opposite for vehicles destined to the UK to keep them happy. So the arguably better position was abandoned even in cases where it wasn't much of a cost saving measure or might have been even adding costs.
I've driven different (automatic) left-hand-drive vehicles with the light stalk on each side, but left side has been more common. Perhaps because the right hand is more likely to be busy with the gear shift? (Even in the US, where automatic has been heavily dominant since before I learned to drive.) -- Avocado (talk) 17:32, 2 January 2025 (UTC)
It's better for a right-hander to have both hands on the steering wheel regardless of where the gear lever is. See Rule 160. I suspect the same goes for a left-hander. Bazza 7 (talk) 14:39, 2 January 2025 (UTC)
I suppose that the question is whether right-handers have an easier time operating the gear stick when changing gears in manual-transmission cars designed for left-hand traffic, with the steering wheel on the right (like in the UK) or right-hand traffic, with the steering wheel on the left (like in most of continental Europe). Obviously, drivers will use their hand at the side where the gear stick is, so if it is in the middle and the driver, behind the wheel, sits in the right front seat, they'll use their left hand, regardless of their handedness. But this may be more awkward for a rightie. Or not.
In my personal experience (more than 10 years driving on each side of the road, in all four combinations of car handedness and road handedness) the question which hand to use for shifting gears is fairly insignificant. Switching from one type of car to the other is a bit awkward though. —Kusma (talk) 18:33, 2 January 2025 (UTC)
Distinguishing a picture of a sunset from the picture of a sunrise?
Is there a way (if you don't know which way is west and which way is east in a particular location) to distinguish a picture of a sunset from the picture of a sunrise? 178.51.7.23 (talk) 12:08, 1 January 2025 (UTC)
Generally, no, but there are a few tricks that sometimes work. In dry sunny weather, there's more dust in the air at sunset (due to thermals) than at sunrise, making the sky around the sun redder at sunset. But in moist weather, mist has the same effect at sunrise. If the picture is good enough to see sunspots, comparing the distribution of sunspots to the known distribution of that day (this is routinely monitored) tells you where the North Pole of the sun is. At sunset, the North Pole points somewhat to the right; at sunrise, to the left. If you see any cumulus or cumulonimbus clouds in the picture, it was a sunset, as such clouds form during the day and disappear around sunset, but absence of such clouds doesn't mean the picture was taken at sunrise. A very large cumulonimbus may survive the night. Cirrus aviaticus clouds are often very large, expanding into cirrostratus, in the evening, but are much smaller at dawn as there's more air traffic during the day than at night, making the upper troposphere more moist towards the end of the day. Cirrostratus also contributes to red sunsets and (to lesser extend, as there's only natural cirrostratus) red sunrises. Dew, rime, flowers and flocks of birds may also give an indication. And of course human activity: the beach is busier at sunset than at sunrise. PiusImpavidus (talk) 13:41, 1 January 2025 (UTC)
Supposing the photograph has high enough resolution to show Sunspots it can be helpful to know that the pattern of spots at sunrise is reversed left-right at sunset. Philvoids (talk) 13:21, 3 January 2025 (UTC)
At the equinox, the disk of the Sun with its pattern of sunspots appears to rotate clockwise from sunrise to sunset by 180 degrees minus twice your latitude (taking north positive). At my place, that's 75 degrees. Other times of the year it's less; at the start and end of polar day and polar night, there's no rotation. Sunset and sunrise merge then.
And I forgot to mention: cirrostratus clouds will turn red just after sunset or just before sunrise. At the exact moment of sunrise or sunset, they appear pretty white. PiusImpavidus (talk) 17:06, 3 January 2025 (UTC)
I differ: the same rotation is involved everywhere on Earth. If you stand on tiptoe at a N. or S. pole to take a picture of the Sun it is you who must pirouette 15 degrees per hour to keep facing the Sun. The Earth rotates you at this rate at all non-polar locations. If you stand within the arctic or antarctic circles, for parts of the year the 24-hour night or 24-hour daylight seem to prevent photographs of sunrise or sunset. However the terms "sunrise" and "sunset" can then be interpreted as times that are related to particular timezones which are generally assigned by longitude. In photographing the 24-hour Sun the equatorial rise and set times for your own longitude are significant elevation maxima worth mentioning even though the minimum elevation remains above the horizon. I maintain that the sunspot pattern observed from any location on Earth rotates 360 degrees per 24 hours and that "night", the darkness from sunset to sunrise, is when the Earth's bulk interrupts one's view of the rotation but not the rotation itself which is continuous.
Taking the Earth as reference frame, the Sun rotates around the Earth's spin axis. The observer rotates around his own vertical axis. The better both axes are aligned, the smaller the wobble of the Sun. In the northern hemisphere, it rotates clockwise from about 6 till 18 by 180 degrees minus twice your latitude and counterclockwise at night, in the southern hemisphere it's the opposite. Try a planetarium program if you want to see it. Stellarium shows some sunspots, does things right and is free and open source. PiusImpavidus (talk) 10:27, 5 January 2025 (UTC)
Relationship between Earth's axial tilt (ε) to the tropical and polar circlesWe deprecate the obselete Geocentric model and suggest Misplaced Pages references that are free and just one click away (no extra planetarium software needed). The axes of rotation of the Sun and Earth have never in millions of years aligned: the Ecliptic is the orbital plane of Earth around the Sun and Earth currently has an Axial tilt of about 23.44° without "wobbling" enough from this to concern us here. Philvoids (talk) 14:56, 5 January 2025 (UTC)
This isn't my field but sunspots aside, if you know the location and date, I assume the appearance of other astronomical objects like the moon or rarely another star probably Venus, in the photograph should be enough to work out if it's a sunset or sunrise. That said, to some extent by taking into account other details gathered from elsewhere's I wonder if we're going beyond the question. I mean even if you don't personally know which is east or west at the time, if you can see other stuff and you know the location or the stuff you can see is distinctive enough it can be worked out, you can also work out if it's sunset or sunrise just by working out if it's east or west that way. Nil Einne (talk) 03:54, 6 January 2025 (UTC)
In my experience (Southern England) they tend to be pinker at dawn and oranger(!) at dusk. {The poster formerly known as 87.81.230.195} 94.6.84.253 (talk) 03:23, 4 January 2025 (UTC)
Pink clouds must result from blending of reddish clouds with the blue sky behind. There's actually more air between the observer and the clouds than behind the clouds, but for that nearby air the sun is below the horizon. PiusImpavidus (talk) 10:27, 5 January 2025 (UTC)
The questioner asks for interpretation of a single picture. It is beside the point that more would be revealed by a picture sequence such as of changing cloud colours. Philvoids (talk) 12:41, 4 January 2025 (UTC)
Recalling Leonard Maltin's comment about the Green Berets movie, which was filmed in the American state of Georgia: "Don't miss the closing scene, where the sun sets in the east!" ←Baseball Bugscarrots→ 22:37, 5 January 2025 (UTC)
Which you can only tell if you know which way is east in the image. Maltin, or his writer, appears to have assumed that Vietnam has a seacoast only on the east, which is wrong. --142.112.149.206 (talk) 03:46, 6 January 2025 (UTC)
But as it was filmed in (The US State of) Georgia, it must actually show a sunrise, regardless of what the story line says – how do you know that wasn't what Maltin actually meant? {The poster formerly known as 87.81.230.195} 94.6.84.253 (talk) 10:35, 7 January 2025 (UTC)
Because things filmed for movies often are not actually what they are shown as being, so that wouldn't be interesting and Maltin's guide wouldn't waste space on it. If what they show it as — for example, in Krakatoa, East of Java — is wrong or impossible, that could be interesting. --142.112.149.206 (talk) 17:43, 8 January 2025 (UTC)
I assume (not having seen the film) that, in the story line of The Green Berets , the closing scene takes place in the late afternoon, which means it shows a sunset. The plot section of our article on the film places the closing scene at or near Da Nang, which is on the east coast of Vietnam. This means that Maltin did not make an unwarranted assumption; he was just seeking an excuse to bash the film. --Lambiam13:55, 7 January 2025 (UTC)
It would be unusual to express the situation in such terms. Since the notion of energy "belonging to" some entity is not itself a physical concept – any practical approach to energy bookkeeping that satisfies the law of conservation of energy will do – this cannot be said to be wrong. It is, however, (IMO) not helpful. Does an apple belong to the space it occupies? Or does that space belong to the apple? --Lambiam23:37, 6 January 2025 (UTC)
First, I let you replace the notion of energy "belonging to" some entity, by the notion of energy "attributed to" some entity, or by the notion of energy "carried by" some entity, and the like. In other words, I'm only asking about the abstract relation (no matter what words we use to express it), between the energy and the space carrying the electromagnetic field, rather than about the specific term "belong to".
Second, I'm only asking about what the common usage is, rather than about whether such a usage is wrong or helpful.
The question is actually as follows: Since it's accepted to attribute energy to an electromagnetic field, is it also accepted to attribute energy to the space carrying that field?
So, is your first sentence a negative answer, also to my question when put in the clearer way I've just put it? HOTmag (talk) 03:28, 7 January 2025 (UTC)
The answer remains the same. It would be a highly unusual use of language to "attribute" electromagnetic energy to a volume of space, in quite the same way as it would be strange to "attribute" the mass of an apple to the space the apple occupies. But as long as an author can define what they mean by this (and that meaning is consistent with the laws of physics), it is not wrong. --Lambiam13:21, 7 January 2025 (UTC)
An electromagnetic field that we may (even tenuously) conceive to have the form of a massless photon has, like the aforementioned apple (a biological mass) its own unique history, that being a finite path in Spacetime. I reject apparent effort to give spacetime any kind of identity capable of owning, or even anticipating owning or remembering having owned anything at all. Concepts of owning, attributing or whatever synonymous wordplay one chooses all assume identification that can never be attached to the spacial location of an em field. The energy of the photon is fully accounted for, usually as heat at its destination, when it is absorbed and no lasting trace remains anywhere. I am less patient than Lambian in my reaction to this OP who under guise of interest in surveying "what is commonly accepted" returns in pursuit of debate by patronisingly "allowing" us to reword his question in abstract "words that don't matter" to make it purportedly clearer and worth responders' time. Philvoids (talk) 14:55, 7 January 2025 (UTC)
Thank you Lambiam for your full answer. I always appreciate your replies, as well as your assuming good faith, always. HOTmag (talk) 15:08, 7 January 2025 (UTC)
What Fosters ad? That link doesn't help, and Australians don't drink Fosters, so won't have seen any ad for it. HiLo48 (talk) 01:15, 9 January 2025 (UTC)
Nonsense. I have it on good authority—Fosters own ads on TV in the US two decades ago—that all Australians do nothing but drink Fosters all day because it is the one true Australian beer. DO NOT ARGUE WITH YOUR CAPITALIST OVERLORDS' CULTURAL APPROPRIATION! Um, I mean, Foster's Lager had a bunch of ad campaigns promoting their image as being Australian. See its article for details. Search youtube for fosters australian to see some examples. DMacks (talk) 01:28, 9 January 2025 (UTC)
It's all grade-separated (rail-line vs rail-line). I assume they mean one rail-line is on the ground (in contrast with being on a bridge as the first example). The term is annoying, but we're stuck with terms like at-grade railway. DMacks (talk) 05:38, 9 January 2025 (UTC)
There is one on the Driving Creek Railway (no photo of this detail in the article, but a few in c:Category:Driving Creek Railway). I've seen mentions of some others that are long-gone (or have one or both levels now used for other modes). Lots of pictures of old New York City have an el with rails in the street under it, but nothing still existing or in-use. DMacks (talk) 07:25, 9 January 2025 (UTC)
would be constant. 
