Wikipedia:Reference desk/Science: Difference between revisions
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:::::Not a strictly ''scientific'' answer, but an interesting fictional consideration of almost exactly the OP's area of interest is to be found in [[Paolo Bacigalupi]]'s 2015 science fiction novel [[The Water Knife]]. {The poster formerly known as 87.81.230.195} [[Special:Contributions/2.221.81.75|2.221.81.75]] ([[User talk:2.221.81.75|talk]]) 08:43, 25 September 2018 (UTC) |
:::::Not a strictly ''scientific'' answer, but an interesting fictional consideration of almost exactly the OP's area of interest is to be found in [[Paolo Bacigalupi]]'s 2015 science fiction novel [[The Water Knife]]. {The poster formerly known as 87.81.230.195} [[Special:Contributions/2.221.81.75|2.221.81.75]] ([[User talk:2.221.81.75|talk]]) 08:43, 25 September 2018 (UTC) |
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::::::Yes, that lethal combination does not exist on Earth - the eastern United States comes closest. [[Special:Contributions/92.31.140.53|92.31.140.53]] ([[User talk:92.31.140.53|talk]]) 13:07, 25 September 2018 (UTC) |
Revision as of 13:07, 25 September 2018
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September 17
Oil and fat yields
Out of avocado oil, beeffat, butter, canola/rapeseed oil, castor oil, chickenfat, cocoa butter, coconut oil, corn oil, cottonseed oil, flaxseed oil, grapeseed oil, lard, olive oil, oliveseed oil, palm oil, palm kernal oil, peanut oil, pumpkin seed oil, rice bran oil, safflower oil, sesame oil, soybean oil, sunflower oil and tallow which need the most and least grams of source organism per gram? (mass right before harvest or slaughter) If you consider the livestock ate like 10 times it's weight in it's life and milk is only ~3% butter is the lowest yielding one an animal fat? (of course a low yielding plant is probably not "economically inefficient", just able to make oil and other valuable products at the same time (i.e. wine and cotton cloth)) Sagittarian Milky Way (talk) 15:18, 17 September 2018 (UTC)
- Does it make sense to measure yield of products with greatly differing molecular weights in terms of grams of source material and grams of product? I'd think moles might be a better measure for the yield efficiency. See atom economy. --OuroborosCobra (talk) 21:42, 17 September 2018 (UTC)
Flu infection
I was reading our article on the flu and there's a passage that I'm having trouble understanding. It's the second paragraph from here, which says: "Influenza viruses bind through hemagglutinin onto sialic acid sugars on the surfaces of epithelial cells, typically in the nose, throat, and lungs of mammals, and intestines of birds (Stage 1 in infection figure). After the hemagglutinin is cleaved by a protease, the cell imports the virus by endocytosis." (there's are references, but it's offline - and likely beyond my understanding anyway!).
It's the last sentence. Okay, so hemagglutinin exists on the outer shell of the virus particle. This attaches to the sialic acid sugars on the surface of some cells. So far, so good. But where I'm stuck is how the cleaving of the hemagglutinin helps the virus gain entry. Does it act kind of like a key, "unlocking" sialic acid sugars (and therefore the surface of the cell)? If so, how does cleaving (i.e. breaking) the key help the virus? Proteolysis was linked in there, but it's not helping me picture the activity going on. Matt Deres (talk) 16:32, 17 September 2018 (UTC)
- The source cited doesn't say that cleavage is necessary for endocytosis, it's just that the cleavage itself can only be carried out by specific extracellular proteins in mammalian flus and non-pathogenic avian flus. (In highly pathogenic avian flus, it happens inside the cell, and the enzymes involved are ubiquitous.) The actual deal with the cleavage, though, is that the HA protein has a short little loop on its side connecting the HA1 and HA2 subunits. When the loop is snipped, one of the loose ends becomes the fusion peptide described at Hemagglutinin (influenza)#Function of HA in Viral Entry, and the protein's structure also becomes capable of the pH-driven rearrangements necessary for membrane fusion (described at the same link). -165.234.252.11 (talk) 20:38, 17 September 2018 (UTC)
- Ah! Thank you - excellent explanation! Matt Deres (talk) 01:52, 19 September 2018 (UTC)
Dog flappy leggy bit
Hey guys, I tried Googling to little avail, but I was wondering what that flappy bit connecting a dog's back leg to his body is called. Thanks in advance! Drewmutt (^ᴥ^) talk 18:06, 17 September 2018 (UTC)
- Floof leg? CHRISSYMAD ❯❯❯¯\_(ツ)_/¯ 18:29, 17 September 2018 (UTC)
- I'm seeing "fold of flank". Heaviside glow (talk) 18:36, 17 September 2018 (UTC)
- Heaviside glow Floof fold? Floof flank? CHRISSYMAD ❯❯❯¯\_(ツ)_/¯ 18:54, 17 September 2018 (UTC)
- Aerodynamic aid? Sagittarian Milky Way (talk) 22:10, 17 September 2018 (UTC)
- "Fold of flank" (FOF) is described here:[1]. 107.15.157.44 (talk) 22:13, 17 September 2018 (UTC)
- Works for me! Thanks Heaviside glow! Drewmutt (^ᴥ^) talk 17:40, 19 September 2018 (UTC)
- "Fold of flank" (FOF) is described here:[1]. 107.15.157.44 (talk) 22:13, 17 September 2018 (UTC)
September 18
Which charge is stronger, negative or positive?
Which of the charges (in chemistry, physics, electricity) is stronger, positive or negative? For example, if we have more negative than positive charge, the one that will be dominant is the negative or the positive charge cancels any negative charge? (I have the same question about having more positive than negative) 93.126.116.89 (talk) 05:19, 18 September 2018 (UTC)
- Neither. They're equal and opposite. Did something give you the impression that one was stronger? --47.146.63.87 (talk) 05:36, 18 September 2018 (UTC)
- To be more precise, a proton and electron have equal and opposite charges. However, it is possible for something to have more of one than another. For example, a hydrogen atom has one proton and one electron, giving it zero charge. If it loses its electron, it becomes a hydrogen ion with a +1 charge. A Chlorine atom can gain an extra electron, forming an ion with a -1 charge, while an oxygen atom can gain two extra electrons, giving it a -2 charge. (Chemical compounds form by combining positive and negative ions so that the charges balance out. That's why hydrogen chloride (HCL) has equal amounts of hydrogen and chlorine, but water (H2O) has twice as much hydrogen as oxygen). Iapetus (talk) 09:39, 18 September 2018 (UTC)
- For a more complex answer at a fundamental level, see C-symmetry. For most fundamental physical situations, particles obey C-symmetry, meaning that the laws of physics are identical for particles which have opposite charges (for this purpose, the opposite of a proton is an antiproton and not an electron; while the opposite of an electron is a positron (antielectron).) Not everything obeys C-symmetry, however. The lack of C-symmetry in the weak interaction led to the development of a more basic type of symmetry that is universal, known as CPT symmetry (charge-parity-time symmetry). --Jayron32 11:20, 18 September 2018 (UTC)
- To be more precise, a proton and electron have equal and opposite charges. However, it is possible for something to have more of one than another. For example, a hydrogen atom has one proton and one electron, giving it zero charge. If it loses its electron, it becomes a hydrogen ion with a +1 charge. A Chlorine atom can gain an extra electron, forming an ion with a -1 charge, while an oxygen atom can gain two extra electrons, giving it a -2 charge. (Chemical compounds form by combining positive and negative ions so that the charges balance out. That's why hydrogen chloride (HCL) has equal amounts of hydrogen and chlorine, but water (H2O) has twice as much hydrogen as oxygen). Iapetus (talk) 09:39, 18 September 2018 (UTC)
- The error is in assuming that the two types of charge are invariable. Bear in mind that quarks have electrical charges of +2⁄3e or −1⁄3e. Protons and electrons having opposite and equal charges has led to that being the unit of charge - but actual charge doesn't always have to be +1 or -1. Wymspen (talk) 10:16, 19 September 2018 (UTC)
- Charge is still quantized, though. Historically, we picked the wrong thing to call the "1", but the entire system works (for example) if we had picked the charge of the down quark and called that "1". It's still quantized, and there is still a fundamental charge which all other charges must be a multiple of. It's just not "1" in our current system. --Jayron32 11:13, 19 September 2018 (UTC)
- "Wrong" is subjective. Free quarks don't exist below the Hagedorn temperature, so outside of high-energy physics we only care about the charges on electrons, protons, and other "stable" particles. It's simpler to use "1" for this; otherwise we'd be doing a lot of base 3 math. --47.146.63.87 (talk) 08:16, 21 September 2018 (UTC)
- Charge is still quantized, though. Historically, we picked the wrong thing to call the "1", but the entire system works (for example) if we had picked the charge of the down quark and called that "1". It's still quantized, and there is still a fundamental charge which all other charges must be a multiple of. It's just not "1" in our current system. --Jayron32 11:13, 19 September 2018 (UTC)
Although the negative and positive charges are equal and opposite fundamentally, as per the above discussion, in chemistry, it's quite often the case that the negative charges of the electron cloud are felt more strongly than the positive charges of the nucleus. This is because the electrons are on the outside, so they form a shield around the nucleus. This is discussed under the subjects of electron shielding and effective nuclear charge. The latter article shows that for neutral atoms, increasing charge of the nucleus by one results in less than one additional charge being felt outside the electron cloud. Neon for example has 10 positive charges (and 10 negative charges) but a charge of only +5.758 is felt by the outermost electrons. Handschuh-talk to me 10:45, 22 September 2018 (UTC)
- Addendum: it's not just that electrons are on the outside, but that they exist in shells around the nucleus. This is because electrons are fermions, and therefore the Pauli exclusion principle keeps them from all occupying the same quantum state, which bosons are free to do. --47.146.63.87 (talk) 06:04, 23 September 2018 (UTC)
Have there been any predictions/projections on when we will be able to regrow human skin and thus completely eliminate white scars?
Have there been any predictions/projections on when we will be able to regrow human skin and thus completely eliminate white scars? Futurist110 (talk) 20:01, 18 September 2018 (UTC)
- Human skin does "regrow", but as scar tissue; there is research for "wounds to heal as regenerated skin rather than scar tissue":[2], but that doesn't cover already existing scars. 2606:A000:1126:4CA:0:98F2:CFF6:1782 (talk) 23:02, 18 September 2018 (UTC)
- Biology is funny. I remember a time when I was 16 or so and managed to somehow slice or rip open the skin across my Achilles tendon on a rock, seemingly all the way to the fascia. It didn't hurt, and didn't bleed, and I didn't want the bother of a doctor, so I just closed it up a little and left it under a bandage; it healed without trouble with a fairly wide white scar. Years later, I couldn't find the scar at all. But another scar from a burn on a finger from that time never went away, though after many cycles of becoming aggravated and being picked at its appearance reduced a bit. We have an articles scar free healing and decent reviews are available, but it seems like there is a lot of randomness in the process still in need of explanation. Wnt (talk) 00:05, 19 September 2018 (UTC)
I found the manufacturer who mentions CTGF, and cites [4]. The design of the modified asymmetric siRNA is given in this appendix. The actual substance is therefore the annealed combination of
- cp - asiCTGF sense = mCUmUAmCCmGAmCUmGGmAA(s)mG(s)A(s)-chol
- cp - asiCTGF antisense = UCUUCCAGUCGGUAmAmGmCmCmGmCmGmAmGmGmGmCmA(s)mG(s)mG(s)mC(s)mC-chol
Where mN = 2’ - OMe modified nucleotide, (s) = phosphorothioate, and -chol = cholesterol.
If this holds up, it is not merely a medical advance, but also a big technical step forward in siRNA technology, with applications to a vast number of target genes. And, this should be a type of drug fairly readily manufactured on an illicit basis by those with the will to do so, making it potentially accessible to the common people. Wnt (talk) 13:56, 19 September 2018 (UTC)
- Would this also work for old white scars? Futurist110 (talk) 03:53, 20 September 2018 (UTC)
- We have an unconfirmed report from the manufacturer that it works on a fresh wound in a rat. Everything else is fun... but speculative at this point. Unless someone tries the experiment I won't even have a guess what would happen there; I'm not very optimistic but you can look up CTGF and related articles and see what you think. Wnt (talk) 13:50, 20 September 2018 (UTC)
September 19
How to choose an expert?
If I want to solve an issue -- settling a dispute about an edit in an article in Wikipedia, deciding whether cell phones provoke cancer or taking homeopathic medication -- are we doomed to appeal to an authority to settle the issue? Wikipedia has a rather dismissive attitutde towards credentials, so, it makes the question even trickier. When we admit that we are not competent in a field, how to decide who is competent, when there's a huge body of knowledge in a science? --Doroletho (talk) 00:35, 19 September 2018 (UTC)
- Wikipedia doesn't "choose an expert", it summarises what the majority of experts have published in WP:Reliable sources, giving both sides where there is wide disagreement. Dbfirs 06:15, 19 September 2018 (UTC)
- The leap of faith that Wikipedia makes is that, while it takes an expert to appreciate the validity, limitations etc. of the expert consensus on domain Foo, it does not take one to know what that consensus is. And that is what we describe (alongside significant minority views, public perception yada yada). We proceed exclusively by "appeal to authority". TigraanClick here to contact me 09:07, 19 September 2018 (UTC)
- I need to make one minor quibble, "dismissive attitutde towards credentials" is 100% wrong. Wikipedia has a strong respect for the writings of experts that have been published in reliable sources. Indeed, ALL of Wikipedia is designed to be referenced to the writings of highly credentialed people who have been scrupulously vetted and who's writings are considered highly reliable. What Wikipedia is (and is rightly so!) dismissive of is a) the claim that because a person in an argument says they have credentials, they should win any disagreement and b) that the existence of credentials (even if valid) in a discussion should override actual, published, reliable sources where the person fronting the argument disagrees with those sources. Wikipedia loves credentials, it just dismisses people who use claims of credentials to win arguments in opposition to what is written in reliable sources. --Jayron32 11:09, 19 September 2018 (UTC)
- We have an encyclopedia article: an expert ..."has intense experience through practice and education..." and "is widely recognized as a reliable source."
- That lede paragraph summarizes it! Expertise is developed by studying, and is established by peer-review. Whether we are participating in editing or reading Wikipedia, or in any other aspect of our lives, we determine "expertise" by finding many other people who agree with us.
- This may seem like an oversimplification; it may seem unstable or hazardous; but it works. Alternatives to this method have been proposed; you can study the theory of knowledge to learn about the meta-problem of trying to establish knowledge (and the related concept, "truth"), from first principles; but in short summary, even though many philosophers have proposed alternatives, Wikipedia is one exemplar of a working system in which all knowledge is established through community consensus - including the specific ouroboric knowledge about which members of our community carry even more knowledge.
- Nimur (talk) 16:01, 19 September 2018 (UTC)
- Society used to appeal to authorities to settle issues on all matters before the scientific revolution. For 300,000 years humanity has existed we didn't have cell phones, cars, satellites etc. etc., and that changed when the scientific revolution started about 300 years ago. The most important thing that allowed the scientific revolution to succeed was to stop to appeal to authority. Count Iblis (talk) 17:06, 19 September 2018 (UTC)
- No, we still appeal to valid scientific authorities: Every individual person (like you, me, everyone else here) does not have enough minutes on earth to do every scientific experiment ever done. While what makes science different from other forms of knowledge-making is that one could re-do each experiment (and also that each experiment has the potential to disprove a hypothesis, what is called falsifiability, the ability of a hypothesis to be disproved by experimentation). What has changed is the type of authority upon which we appeal: the appeal to a scientific authority is still necessary, because we literally cannot expect every citizen to do every experiment themselves; the same applies to authorities in other field: we cannot expect every human to read every historical text ever written; but they should be able to check the sources of reliable historians. We still appeal to the authority of those scientists because they have a reputation of using valid scientific methods to make knowledge and we still appeal to the authority of historians because they have a reputation of using valid historical methods to make knowledge, etc. etc. The reliance on valid authority in knowledge building is necessary because no one human can build all of that knowledge on their own from first principles. At some point, they have to have reasons to trust that someone else is doing it right. --Jayron32 17:20, 19 September 2018 (UTC)
- Yes, we do need to put our trust in a system, as even scientists cannot go about verifying everything they need to know for their own research. However, this is then the system involving rigorous reviews and independent reproduction/verification of results, so it's not about trusting the judgment of particular individuals. If it's at all possible to have doubts about some result, then such doubts will be the subject of further research. So, it's far more about the whole process making sure that researchers are not going to leave any stone unturned, that allows people to have trust in the results of scientific research. Count Iblis (talk) 20:33, 20 September 2018 (UTC)
- No, we still appeal to valid scientific authorities: Every individual person (like you, me, everyone else here) does not have enough minutes on earth to do every scientific experiment ever done. While what makes science different from other forms of knowledge-making is that one could re-do each experiment (and also that each experiment has the potential to disprove a hypothesis, what is called falsifiability, the ability of a hypothesis to be disproved by experimentation). What has changed is the type of authority upon which we appeal: the appeal to a scientific authority is still necessary, because we literally cannot expect every citizen to do every experiment themselves; the same applies to authorities in other field: we cannot expect every human to read every historical text ever written; but they should be able to check the sources of reliable historians. We still appeal to the authority of those scientists because they have a reputation of using valid scientific methods to make knowledge and we still appeal to the authority of historians because they have a reputation of using valid historical methods to make knowledge, etc. etc. The reliance on valid authority in knowledge building is necessary because no one human can build all of that knowledge on their own from first principles. At some point, they have to have reasons to trust that someone else is doing it right. --Jayron32 17:20, 19 September 2018 (UTC)
- The traditional approach has been a combination of authority, jury, evidence, and democracy. People expect "good papers" and "good journals" to be run by "the right people", based on ad hominem considerations, but then allegedly random researchers (chosen by authority) review papers and decide based on the text, and then we review the papers by doing a literature search and seeing who is mostly believed.
- The modern issue is that some trolls might generate more comments than everyone else put together. Papers and whole journals might be the blathering of artificial intelligence. Such mechanisms have the net effect of disrupting communication, so people retreat into "bubbles" by which they trust fewer opinions, even if less competent, to go through the mass of nonsense and try to pick out something that sounds logical and reasonable. But then there's also the issue that while in the past a forged figure might be crudely copied and pasted in multiple papers, now we can picture some entities generating convincing forged video, so certainly a good faked PAGE gel. So long as an honest mind trying to reconcile the logic behind the data can make sense of what is genuine, there might be hope, but how long can that last? After that, all communication is lost and humans are back to where they were before the invention of speech, but with a superior species of machines occupying their former niche. Wnt (talk) 14:08, 20 September 2018 (UTC)
- That's the problem of knowledge making in general, and in the end following your train of thought leads only to solipsism, which while logically consistent is not a practical way to live one's life. As soon as one places trust in any concept which cannot be perfectly proven (including, even, what your own senses tell you on a daily basis), one must take some leap of faith that the information one is assuming is real is actually real. At some point, you have to just trust it, and you can set your own criteria for what is likely to be more trustworthy, but to follow perfect logic and demand that all information require perfect truth to be acceptable, ONLY solipsism works. --Jayron32 16:49, 20 September 2018 (UTC)
- It depends how much effort you want to put into it. The legal system has a highly-developed way of arriving at the truth. Cases are originally heard in a court of first instance. If there is any doubt you can appeal to a higher court, then a still higher court and so on. At the end of the process you get a well-referenced decision which is very unlikely to be wrong. 92.31.140.53 (talk) 15:08, 20 September 2018 (UTC)
- Hmmm, I would have said something more like "fifty-fifty". Wnt (talk) 12:28, 22 September 2018 (UTC)
- Regarding trusting experts and science see our article on argument from authority. --Modocc (talk) 16:40, 20 September 2018 (UTC)
type of turbine in a dam
I have a hydroelectric question about two dams in western Washington, both described in Wiki: the Upper Baker Dam and Lower Baker Dam. Are both dams equipped with Pelton impulse turbines? If not, what kind of turbines are in use? Thanks for your help! It's a wonderful service. Rossroderick (talk) 03:17, 19 September 2018 (UTC)
- They're 300' dams, so that's enough head for Peltons to make sense. I can't find anything on-line about them to confirm this, although [5] contains this tiny cross-section image of the new 30MW Unit 4 which looks more like a Francis turbine. Andy Dingley (talk) 11:32, 19 September 2018 (UTC)
Are there any bacteria that are hydrophobic?
My understanding is bacteria in general all thrive in wet/moist conditions, so are there any bacteria that don't like water? Then, are there any bacteria that are neutral in water (don't actually thrive more). Otherwise, bacteria is generally 100% hydrophilic right. 12.239.13.143 (talk) 18:58, 19 September 2018 (UTC).
- "Hydrophobic" and "hydrophilic" are not typically used to describe organisms. All known cells are bags of water, so in that sense (if you don't consider viruses and prions to be alive) you could describe all life as "hydrophilic", because all life needs water. But not all bacteria are adapted to wet environments. Bacteria or archaea live in every terrestrial environment we've checked, including bone-dry deserts, acid mine drainage, salt lakes, and rock miles underground. Bacteria adapted to those environments will often not do well in others because other bacteria will out-compete them. As you may see, the reason those terms aren't used is they don't have much descriptive power when you try to apply them to organisms. They're too reductive. Plus, it risks confusion with their typical usage in chemistry. --47.146.63.87 (talk) 06:45, 20 September 2018 (UTC)
- Lipophilic bacteria may be helpful, although I think that article would benefit from some work. Klbrain (talk) 22:48, 22 September 2018 (UTC)
type of hydroelectric turbine in use
Yesterday I asked this:
I have a hydroelectric question about two dams in Western Washington, both described in Wiki: the Upper Baker Dam and Lower Baker Dam. Are both dams equipped with Pelton impulse turbines?
This was the very good answer:
They’re 300’ dams, so that’s enough head for Peltons to make sense. I can’t find anything on-line about them to confirm this, although [16] contains this tiny cross-section image of the new 30MW Unit 4 which looks more like a Francis turbine. Andy Dingley (talk) 11:32, 19 September 2018 (UTC)
I have since learned that the turbine vanes in at least one of the dams have streams of water directed at them, through nozzles, that are controlled by hydraulics, i.e., by oil under pressure controlling the motion of pistons. The hydraulics are used to determine the direction of the flow and possibly the pressure of the flow.
Would that information tend to indicate Pelton impulse turbines or the Francis turbine?
And a second question: Do you know which dam the new 30MW Unit 4 is installed in: the upper or lower dam?
Thanks very much.
Rossroderick (talk) 03:28, 20 September 2018 (UTC)
- Atleast the technology of the last unit 4 turbine is pretty clear because of its unique feature of being "fishfriendly". All conventional hydro turbines are fischkillers and on top allow only one direction since no fish is fast enough to swim up in them.
- That it is the newest also gives a clue, because altho it is one of the oldest turbine principles of all, it has only recently become very popular again in modern hydroelectric powerplant constructions.
- They are called vortex-, low head- or very low head turbines (VLH-Turbines). Seems they are still so brand new and uncommon (altho i had already read about them (wrongly described) as "new innovation" 4-5 years ago) that we actually still dont have an article about them, nomatter they are definitely worth one. I am a little puzzled with the 2 dams tho because these vortex turbines actually dont need a dam and the mentioned sidenote about the benefit for the fish should mean there are 2 of these or the one in the lower dam somehow circumvents the upper to let the fish pass tru both. --Kharon (talk) 04:43, 20 September 2018 (UTC)
- A Gravitation water vortex power plant is one of the types mentioned in the Low head hydro power article. DMacks (talk) 05:16, 20 September 2018 (UTC)
- Construction- and engineering-firms still seem in a contest about how to call these. I learned about them under the name vortex hydro turbine. I am pretty sure many more will be build in the future because they are actually very simple and easy to build, yet surprisingly effective and versatile and on top very ecological. So guess some common name will crystallize out in some years. --Kharon (talk) 06:18, 20 September 2018 (UTC)
- I'm kind of surprised they need a special turbine to spare fish. I mean, haven't any of these engineers heard of FACS sorting? :) Wnt (talk) 13:57, 20 September 2018 (UTC)
- Lots of methods have been tried to reenable natural diadromous fish migration. Unfortunately only with limited success no matter the serious effort and investments. These new old vortex turbines actually promise a very good solution to that which is surprisingly cheap and effective enough for power generation on top. Besides Hydro power is pretty abundant anyway so dependent on POV it may actually look a bit silly to take such huge investments, just to tinker out a few more % efficiency. --Kharon (talk) 18:02, 21 September 2018 (UTC)
September 20
Particles, wood heating & diesel
Hello! The dieselgate has brought to light a fraud involving toxic emissions from diesel vehicles. In the case of fine particles, total pollution includes emissions from industry, transport, individual heating &c. How is each contribution calculated? If transport-related emissions have long been undervalued due to car manufacturers' fakes, what is the adjustment factor and have we not, for example, exaggerated the impact of wood heating? Thanks for your help, --methodood (talk) 10:34, 20 September 2018 (UTC)
- Dieselgate redirects to Volkswagen emissions scandal. Is that what you're referring to? Also, where have you been for the last eight years. :) ←Baseball Bugs What's up, Doc? carrots→ 13:02, 20 September 2018 (UTC)
- Hi Bugs! Can you give me the detail of the contributions of each pollutant before and after the revelation of the scandal, how it is calculated (and if the prorata didn't evolve, why ?) Thank you.--methodood (talk) 18:31, 20 September 2018 (UTC)
- Dieselgate is only about NOx emissions. Fine particle emissions were not involved. Ruslik_Zero 20:22, 20 September 2018 (UTC)
- Hi Bugs! Can you give me the detail of the contributions of each pollutant before and after the revelation of the scandal, how it is calculated (and if the prorata didn't evolve, why ?) Thank you.--methodood (talk) 18:31, 20 September 2018 (UTC)
- These numbers are all estimated (numerically projected) based on a few samples. If you manipulate some samples you of course also manipulate the whole picture and change the relation of all picture elements among each other. That does not mean you change every element and its own impact! --Kharon (talk) 22:54, 20 September 2018 (UTC)
Plants question.
If you bring a plant from the cold arctic, like coniferous trees, and bring it to the tropics, equatorial regions, will it be happy, or worse? Cuz I imagine the other way around is more painful, bringing a tropical plant to the cold arctic. So when you bring a arctic plant to the warm regions, with more sunlight, what would be the answer? If things like different soils play a role, then what about if you bring the same soil and so the only changing variables are temperature and latitude? Thanks. 12.239.13.143 (talk) 21:21, 20 September 2018 (UTC).
- Depends. I don't have an answer to your actual question, but will note that the equator is not all happiness and sunshine from every plant's perspective. Heat and high humidity are downright stressful for some of them. Someguy1221 (talk) 21:48, 20 September 2018 (UTC)
- Not all but many plants are specialized on specific environments and according conditions. Arctic plants for example tend to have a very slow metabolism that probably cant "deal" with the energy volume of sunlight in warmer regions, just like you cant put a Seacow into the Rapids and expect it to survive and reproduce there. --Kharon (talk) 23:14, 20 September 2018 (UTC)
- Do yo mind providing any source to your claim that "Arctic plants for example tend to have a very slow metabolism"? Is that something you can cite or just imagined to be the case?
- Indeed, arctic plants very fast development, high rates of metabolism concentrated in a short period of time, when there's sun available.
- In contrast, in season-less tropical climates, plants can compensate for low rates of metabolism by having long durations of activity. There's plenty of sun for that.
- In any of both cases, the evolutionary adaptation is the lowest temperature at which new cells can be generated.Doroletho (talk) 01:50, 21 September 2018 (UTC)
- According to this source "the vegetation of the taiga is vulnerable because of its low rate of metabolism and biological activity due to cold temperatures". Mikenorton (talk) 09:16, 21 September 2018 (UTC)
- But there's a question of chicken versus the egg: does their metabolism appear to be slow because of the reduced sunshine for much of the year or is it really slow? It's a question of lack of resources versus internal mechanisms. Anecdotally, northern plants are certainly capable of rapid growth when conditions are ripe (broadly similar to a desert bloom) and the stunted "trees" around the treeline also grow bigger and faster further south. Whether they're genetically tuned to grow differently is really the crux of the question. Matt Deres (talk) 15:10, 21 September 2018 (UTC)
- Sunshine seems less important than temperature because you find the very same strategy and adaption for example in Greenland sharks who are even apex predators aka Carnivores in their environment, thus hardly dependent on allot of sunlight, have a even extremely slow metabolism and obviously no interest to leave their very cold environment. --Kharon (talk) 17:11, 21 September 2018 (UTC)
- Wait a minute you're comparing plants to animals here?? Plants need sunlight to photosynthesize, animals do not. 67.175.224.138 (talk) 05:57, 22 September 2018 (UTC).
- Hence: asking for real sources rather than "I imagine that" is the way to go. --Doroletho (talk) 13:01, 22 September 2018 (UTC)
Okay I asked 2 plant professors this question. 1st 1 said for coniferous trees, yes it can as it is strong enough to live in both environments. But not all Arctic plants. Basically his ultimate answer was "depends on the plant." A 2nd 1 predicted that if you move a plant from the Arctic to the tropics, it will have problems where it loses a lot of water. But I ask what if it were moist, rainfall environment, so he goes on with other factors like being exposed to different kinds of bacteria and fungi. So it seems to me, that placing a plant from a wet environment to a dry environment is a bigger issue - so now my 2nd question is - what happens if you bring a desert plant like cacti into a moist, rainfall environment? I'll later ask around about metabolism. 207.140.218.10 (talk) 17:40, 21 September 2018 (UTC).
- Many (but not all) cacti will suffer root rot if they are in a wet environment. I wouldn't even try to grow a cactus where I live with a hundred inches of rain a year. Even Mediterranean plants tend to rot here, but conifers grow well. Here is a Quora answer about cacti. Dbfirs 19:39, 21 September 2018 (UTC)
- You could probably grow them indoors as long as you don't overwater. --47.146.63.87 (talk) 06:50, 23 September 2018 (UTC)
- Well, yes, I do grow small ones indoors where they seem to thrive on neglect most of the time. Dbfirs 10:20, 23 September 2018 (UTC)
- Here in So Cal we tore out our lawn and replaced it with xeriscaping, which cut the water bill by about 60%. With a drip irrigation system you don't even have to think about the plants. Should be mandatory around here if you ask me. --47.146.63.87 (talk) 22:15, 23 September 2018 (UTC)
- Well, yes, I do grow small ones indoors where they seem to thrive on neglect most of the time. Dbfirs 10:20, 23 September 2018 (UTC)
- You could probably grow them indoors as long as you don't overwater. --47.146.63.87 (talk) 06:50, 23 September 2018 (UTC)
Not about conifers, but here's some comments from the University of Florida (http://gardeningsolutions.ifas.ufl.edu/plants/edibles/fruits/chill-hours.html) regarding deciduous fruit trees - "In order to bloom in spring, deciduous fruit trees like peaches, plums, and nectarines all must go through the plant equivalent of a long winter's nap. They need a dormancy period with a certain number of chilling hours, when the temperature drops below 45 degrees Fahrenheit. The exact number of chilling hours depends on the fruit tree variety, but it can be anywhere from a hundred to more than a thousand....." So, your peach tree might survive in the tropics, but may not set fruit. HiLo48 (talk) 22:47, 22 September 2018 (UTC)
September 21
Baker Dam turbines, continued dialog
In response to the dialogue about dams on Baker Lake.
But these are NOT low-head dams. The new low-head turbine technology is simply not required, and there are tradeoffs if it's used unnecessarily. And if you look at satellite photos of Baker lake on Googlemaps, you can clearly see the special nets employed to capture fish and move them around the dam. And you can read about them as well, in Wiki articles.
If the Baker-dam turbines are EITHER Pelton OR Francis, what would they likely be? What’s your best guess, and can you justify making it?
Thanks again!Rossroderick (talk) 00:41, 21 September 2018 (UTC)
- Several sources list head ranges from 200 or 500 metres up to 1500 metres for Pelton turbines, and from 20 or 80 metres up to 500 or 750 metres for Francis turbines ( https://www.slideshare.net/BKLR/hydraulic-turbines, http://164.100.133.129:81/econtent/Uploads/16-Hydraulic%20Turbines%20%5BCompatibility%20Mode%5D.pdf and https://www.youtube.com/watch?v=k0BLOKEZ3KU&vl=en ). It would also depend on flow rate, see the "Hydraulic turbine selection" graph at page 40 of the second source. So I would say a Francis turbine. Prevalence 02:28, 21 September 2018 (UTC)
- When this query was first posted, I did quite a bit of digging around, but decided not to post with a non-definitive reply. But since you ask for "best guess" (with choice limited to Pelton vs. Francis), here's my evaluation: in 1925, Francis turbines were installed; by 1988 they were Peltons. The latter is supported by your description of the hydraulic piston mechanism. The Pelton impulse-jet uses a synchronization device (perhaps using pistons) which I equate as sort of the inverse of the mechanism developed in WW1 for machine guns on airplanes. On airplanes, the machine guns were synchronized such that the bullets would miss the propeller blades, whereas the Pelton device would synchronize the water-jet impulses such that they would hit the turbine blades -- in just the right spot for maximum efficiency. If need be, I could peruse my internet history and (hopefully) find photos/documents that lead me to this (e.g: archived 1925 photo of newly-installed turbines on one of the Baker dams that were not Pelton, probably Francis and archived government document that evaluated Peltons, noting their installation within the system that includes the Baker dams -- but not specifically those dams). So, my "best guess" is that the current primary turbines are Pelton, augmented by some "fish-friendly" system. —2606:A000:1126:4CA:0:98F2:CFF6:1782 (talk) 03:38, 21 September 2018 (UTC)
- Its very odd that no one, not the owner nor management nor locals made any effort to offer some more detailed documentation.
- Additionally, after trying to research about it for some time, it also struck me that homeland security may just now look over my shoulder "virtually live" and ask themselves why the heck i am interested in some power station in the state of Washington. So in conclusion let me forward that! Why the heck are you? --Kharon (talk) 17:28, 21 September 2018 (UTC)
- I can't find any sources to support the general idea that the water flow is pulsed in Pelton designs. The flow can be increased or decreased depending on output demand, but everything I've seen is that it's essentially held constant at any given time. Sounds like a possible confusion of the idea of pulse vs impulse (physics)? DMacks (talk) 17:31, 21 September 2018 (UTC)
- The transfer of water flow from each bucket to the next one of a Pelton wheel is modelled by design to minimise turbulence which represents wasted energy and vibration; note the shaped leading edges of the buckets here. The idea of externally interrupting the flow between buckets invites causing Water hammer, an extremely dangerous phenomenon at the high levels of kinetic energy involved in hydropower stations; witness the devastation in the 2009 Sayano–Shushenskaya power station accident. DroneB (talk) 17:06, 23 September 2018 (UTC)
- The idea of pulsed flow in water turbines (including Pelton wheels) is nonsense. Andy Dingley (talk) 22:03, 23 September 2018 (UTC)
September 22
Valence Bond theory vs Molecular Orbital theory descriptions of O2
I am reading this paper on the use of VBT and MOT in teaching chemistry, and I'm having trouble getting past the first paragraph. Specifically, the following excerpt is what I'm struggling with:
"MO theory is often presented as a superior or more advanced theory citing “failures” of VB such as the paramagnetism of O2 and the explanation of excited electronic states. However, a more in-depth application of VB (1) shows that resonance between two paramagnetic structures with two 3-electron π bonds (Figure 1A) is more stable than resonance between two diamagnetic spin paired structures each with a 2-electron π bond and a 4-electron repulsion (Figure 1B)."
I don't understand several points about this. Firstly, isn't the double bond in dioxygen a sigma bond and and pi bond, not two pi bonds as per the text? I understand that the two bonds are actually equivalent (not one sigma and one pi, but two equivalent bonds of mixed character), but to make that point clear you'd need to invoke hybridization, and in their description and drawing they haven't done so.
Secondly, don't bonds involving three electrons imply that at least two electrons would have the same set of quantum numbers and therefore be in violation of the Pauli principle? I've never heard anything about 3 electron bonds before, and I don't understand how they can be made to fit with either VBT or MOT as both are quantum based theories and as such must conform to Pauli. Figures 1A and 1B don't help me much either. Assuming that the solid line between the nuclei indicates a sigma bond, figure 1A seems to show a triple bond between the atoms. The existence of two p orbital on each atom also seems to indicate sp hybridization, whereas O2 has sp2 hybridization. Actually, a VBT description that explains the paramagnetism of O2 would make more sense to me if they showed 2 sp hybridized O atoms triply bonded (1 sigma bond between the sp orbitals, and two pi bonds between p orbitals) with an unpaired electron in each of the remaining sp orbitals. This would not account for the lone pairs though, and would imply a far shorter bond length. Handschuh-talk to me 09:39, 22 September 2018 (UTC)
- "O2 has sp2 hybridization" is either circular reasoning or an unsupported underlying premise:) You are rightly concerned about putting a third electron into a single π molecular orbital, but when you add two p atomic orbitals, you get both a π and a π* and that latter can hold up to two more electrons. If you hybridize two p, which can hold a total of 4, your result can also hold a total of 4. Their diagram 1A represents two p orbitals interacting rather than a single unified π. They casually call it "π", but it's really also π* (which also actually does have π symmetry). So there are two sets of π/π* in addition to the σ, but each bonding π (populated by 2 electrons) is weakened by 1 electron in its associated antibonding π. That means each of the two π/π* has net effect of approximately "half bonding". So "1σ+2[half-π]" rather than "1σ+1π" still gives a net appearance of 4 bonding electrons exactly as "O=O" represents. Our triplet oxygen discusses the MO approach in detail and also links to the idea of three-electron bonds. DMacks (talk) 10:31, 22 September 2018 (UTC)
- "when you add two p atomic orbitals, you get both a π and a π* and that latter can hold up to two more electrons"
- Except this is supposed to be a VBT description of the bonding. Bonding and anti-bonding orbitals are a MOT concept..aren't they? Handschuh-talk to me 10:50, 22 September 2018 (UTC)
- No, at the introductory level we usually gloss over that aspect, but Modern valence bond theory is entirely compatible with MOT, and uses many of the same tools to deduce electronic properties. --Jayron32 23:08, 22 September 2018 (UTC)
- Also, as shown in the paper, especially the diagram, it isn't a 3-electron, 1-orbital bond, it's a 3-electron, 2-orbital bond; that is you have 3 electrons distributed (via Resonance between two perpendicular pi-bonds). In the case between VBT and MOT here, the difference is in the explanation of the paramagnetism: VBT explains it via resonance, MOT explains it via bonding/anti-bonding orbitals. Either way, however, Pauli is preserved, look at the diagram on the right: You have two perpendicular p-orbitals, and neither ever has more than 2 electrons in them. Ultimately, however, they are both still useful theories which is why we keep them both: VBT is powerful in explaining geometry (angles, positions, and bond lengths), whereas MOT is useful in such matters as visualizing energy and bond order. Each can kind-of come up with explanations the other is better at (i.e. "resonance", which is still an inelegant kludge that MOT avoids entirely), but the point of the paper is that BOTH theories are valid because even VBT can explain observed behavior. --Jayron32 23:16, 22 September 2018 (UTC)
- Well, if VBT can include bonding and anti-bonding orbitals then I don't even understand what the distinction between the two theories is. As I understand VBT, a bond is created by overlapping two atomic orbitals. This allows the electrons to be counted as being in atomic orbitals from both atoms in the bond. In the diagram, no atomic orbital has more than 2 electrons, but two atomic orbitals are indicated to be bonding i.e. overlapping to form a bond with a total occupancy of 3 electrons.
- Secondly, if VBT is only able to accurately describe the bonding of dioxygen after we update the theory with concepts borrowed from MOT, then that doesn't say much for the paper's argument that VBT is just a good a description of the phenomenon. Handschuh-talk to me 00:10, 23 September 2018 (UTC)
- Also, as shown in the paper, especially the diagram, it isn't a 3-electron, 1-orbital bond, it's a 3-electron, 2-orbital bond; that is you have 3 electrons distributed (via Resonance between two perpendicular pi-bonds). In the case between VBT and MOT here, the difference is in the explanation of the paramagnetism: VBT explains it via resonance, MOT explains it via bonding/anti-bonding orbitals. Either way, however, Pauli is preserved, look at the diagram on the right: You have two perpendicular p-orbitals, and neither ever has more than 2 electrons in them. Ultimately, however, they are both still useful theories which is why we keep them both: VBT is powerful in explaining geometry (angles, positions, and bond lengths), whereas MOT is useful in such matters as visualizing energy and bond order. Each can kind-of come up with explanations the other is better at (i.e. "resonance", which is still an inelegant kludge that MOT avoids entirely), but the point of the paper is that BOTH theories are valid because even VBT can explain observed behavior. --Jayron32 23:16, 22 September 2018 (UTC)
- No, at the introductory level we usually gloss over that aspect, but Modern valence bond theory is entirely compatible with MOT, and uses many of the same tools to deduce electronic properties. --Jayron32 23:08, 22 September 2018 (UTC)
- Whatever this is, it is not the familiar approach. The original cited article is [6] - I have to go, so I haven't looked to see if it's in Sci-Hub. Wnt (talk) 12:48, 22 September 2018 (UTC)
Species identification (Unknown spiders)
2 unknown spiders for Species identification:
Based on uploaders talk page, most probable region is North Eastern US, maybe New York?
(Aside: A photo subject identification refdesk would be useful.) ShakespeareFan00 (talk) 10:30, 22 September 2018 (UTC)
- For photo identification the TinEye service, an example of Content-based image retrieval, is useful for checking whether an image is already on the web, though it cannot interpret an image. DroneB (talk) 11:07, 22 September 2018 (UTC)
- The lower one looks like a Dolomedes tenebrosus - in fact they may both be. Mikenorton (talk) 12:25, 22 September 2018 (UTC)
- Uploader responded to my query about region, Long Island, New York is where one (probably both) of the photos were taken. ShakespeareFan00 (talk) 23:17, 24 September 2018 (UTC)
- This link gives a distribution for dolomedes tenebrosus, which is consistent with that location. Mikenorton (talk) 23:48, 24 September 2018 (UTC)
When An Idea appears on your conscious mind
What makes ideas pop up into your conscious mind? Is there a brain mechanism for that? — Preceding unsigned comment added by 37.252.180.177 (talk) 23:11, 22 September 2018 (UTC)
- See this for example. Before the idea becomes conscious it is sometimes called preconscious though our article uses that term in a somewhat different way. 173.228.123.166 (talk) 00:59, 23 September 2018 (UTC)
- Yes, the word did not pop up into my mind when I wrote the question. But it remains unanswered. There is probably loads of preconscious processing. How come only some become conscious? --31.4.136.202 (talk) 09:52, 23 September 2018 (UTC)
- I have had occasions where I would need for some reason to remember some obscure fact, like who was some unsuccessful presidential candidate’s vice president candidate, knowing that I knew the answer at least during the campaign. Hard concentration does not bring the answer to mind, but I can leave the search to the unconscious processes and go on to to some other task. After thirty seconds or so the answer pops up without any conscious effort at all. It is literally like the file search is being done by a separate mental process from conscios awareness or mental effort. Edison (talk) 15:54, 23 September 2018 (UTC)
- Related may be Working memory#Relation to attention. I cannot remember the name of another possibly related bias (similar to confirmation bias), although we tend to notice what we expect to see or what we're looking for. We routinely think and remember things that are not considered immediately important and quickly discard, but if such normally mundane event is recently seeked for, we'll tend to focus on it (or finally remember what was "tagged for retrieval"). An example is when we notice we need to buy an item (it may have recently stopped working, or a newly perceived need), then we start noticing it in stores and ads, although we never would normally care about the particular item... But that's of course not explaining the internal details of preconscious processing, a lot of which is still mysterious... —PaleoNeonate – 17:23, 23 September 2018 (UTC)
- See subliminal advertising. 92.31.140.53 (talk) 18:12, 23 September 2018 (UTC)
- This is not what I was talking about, but the aim here is indeed to influence using the unconscious (interestingly, that article seems to need work, including mention on how some of the methods are pseudoscience)... —PaleoNeonate – 20:24, 23 September 2018 (UTC)
- See subliminal advertising. 92.31.140.53 (talk) 18:12, 23 September 2018 (UTC)
- Related may be Working memory#Relation to attention. I cannot remember the name of another possibly related bias (similar to confirmation bias), although we tend to notice what we expect to see or what we're looking for. We routinely think and remember things that are not considered immediately important and quickly discard, but if such normally mundane event is recently seeked for, we'll tend to focus on it (or finally remember what was "tagged for retrieval"). An example is when we notice we need to buy an item (it may have recently stopped working, or a newly perceived need), then we start noticing it in stores and ads, although we never would normally care about the particular item... But that's of course not explaining the internal details of preconscious processing, a lot of which is still mysterious... —PaleoNeonate – 17:23, 23 September 2018 (UTC)
- See also Hard problem of consciousness on why the question is tricky. --Jayron32 15:07, 24 September 2018 (UTC)
- Wouldn't it be a safe guess that there is some sort of filing system used by the mind, and if so, wouldn't thoughts be associated with other thoughts, and if thoughts are associated with other thoughts, wouldn't it be unsurprising that thoughts of no known relevance would always be popping up as mere associates of the thoughts to which we attribute relevance? Bus stop (talk) 16:12, 24 September 2018 (UTC)
September 23
5 ARIs and erectile issues.
Why do 5 Alpha Reductase inhibitors cause erectile dysfunction and are they reversible for Finasteride and Dutasteride? — Preceding unsigned comment added by 103.15.60.45 (talk) 06:08, 23 September 2018 (UTC)
- See 5α-Reductase inhibitor. And if you're concerned, see your doctor. ←Baseball Bugs What's up, Doc? carrots→ 06:22, 23 September 2018 (UTC)
- I feel the link given gives a very vague answer. I want a more incisive one. — Preceding unsigned comment added by 103.15.60.45 (talk) 06:28, 23 September 2018 (UTC)
- Dihydrotestosterone § 5α-Reductase inhibitors goes into more detail. --47.146.63.87 (talk) 06:49, 23 September 2018 (UTC)
- Still not enough to describe the effect on penile muscle contractile issues. — Preceding unsigned comment added by 103.15.60.45 (talk) 07:46, 23 September 2018 (UTC)
- If you are asking for a concrete case like "when used for few years and five months respectively" it's difficult to answer, unless for a doctor, who meets the patient in person. --Doroletho (talk) 10:55, 23 September 2018 (UTC)
- Still not enough to describe the effect on penile muscle contractile issues. — Preceding unsigned comment added by 103.15.60.45 (talk) 07:46, 23 September 2018 (UTC)
- Dihydrotestosterone § 5α-Reductase inhibitors goes into more detail. --47.146.63.87 (talk) 06:49, 23 September 2018 (UTC)
- I feel the link given gives a very vague answer. I want a more incisive one. — Preceding unsigned comment added by 103.15.60.45 (talk) 06:28, 23 September 2018 (UTC)
- Ok... please remove that time period. Can the effects be reversible? — Preceding unsigned comment added by 103.15.60.45 (talk) 11:57, 23 September 2018 (UTC)
- 5α-Reductase inhibitor § Sexual dysfunction:
Sexual dysfunction, including erectile dysfunction, loss of libido, and reduced ejaculate, may occur in 3.4 to 15.8% of men treated with finasteride or dutasteride.[19][26] This is linked to lower quality of life and can cause stress in relationships.[27] There is also an association with lowered sexual desire.[28] It has been reported that in a subset of men, these adverse sexual side effects may persist even after discontinuation of finasteride or dutasteride.[28]
--47.146.63.87 (talk) 07:11, 24 September 2018 (UTC)
- 5α-Reductase inhibitor § Sexual dysfunction:
3d screen, made of See-through displays
If you stack transparent LCDs, do you get a 3d screen? It would be a rather expensive toy for consumers, but could this work? Doroletho (talk) 10:53, 23 September 2018 (UTC)
- No. --Kharon (talk) 11:29, 23 September 2018 (UTC)
- Yes it works but Liquid-crystal displays do not emit light so you would have to arrange adequate illumination of the stacked screens, and LCDs have a limited viewing angle so you cannot achieve a full walk-around stereoscopic effect. Unless you really want to use a big stock of LCDs with all their associated connectors, wires, circuit boards and power supplies, first review the alternatives at the end of the article Stereo display. DroneB (talk) 15:51, 23 September 2018 (UTC)
- Several famous projects using layered displays have come out of the MIT Media Lab and have been presented at SIGGRAPH and elsewhere. For example:
- Tensor Displays
- Layered3D
- Kinetic Blocks and related tangible displays
- "HR3D" displays using stacked displays
- ...and so on.
- The ideas are neat but the execution is usually limited by several factors: brightness, spatial resolution, and temporal resolution (and skew) are recurring problems that limit the practical performance of such devices. But most of these kinds of demo projects haven't gone anywhere because they're just not very useful - and once the innovative novelty wears off, even researchers lose interest. It's pretty unlikely that hobbyists or companies that target mass-market audiences are going to build anything better - because as soon as you add the extra constraints of cost, reliability, manufacturability, and compatibility, the technology has no clear net advantage over conventional displays.
- Here's a review article: Three-Dimensional Displays: A Review and Applications Analysis (2011), which was featured in IEEE's Transactions on Broadcasting.
- Nimur (talk) 17:38, 23 September 2018 (UTC)
September 24
What's happened with the PHYTOME project?
Have there been any new processed meat products with phytochemicals sold in the marketplace ever since the project was finished in 2016? — Preceding unsigned comment added by 184.67.108.46 (talk) 10:45, 24 September 2018 (UTC)
filtering salt out of seawater
"The teenager only had a few days worth of supplies and survived by catching fish, burning wood from his hut to cook them, and sipping seawater through his clothes to minimize his salt intake."[7] Can one filter out salt by sipping seawater through the textile of one's clothes? Bus stop (talk) 14:12, 24 September 2018 (UTC)
- No, that will not work - but it doesn't mean he didn't try it (or that the news report was inaccurate).
- From a scientific point of view, salt water is a chemical solution - the salt has dissolved into the water and is present as individual ions of sodium and chloride. Many textbooks define a solution as a mixture that cannot be separated by filtration. Cloth isn't even a good filter - so it's not going to have any effect at removing the salt - not even in ideal laboratory conditions.
- From a practical, survival point of view: this isn't a standard procedure either. Almost all sources agree: in a survival situation at sea, it's better to drink nothing than to try to drink seawater. For reference, I pulled out the Army Survival Manual, which you can purchase online in reprint. They make it pretty clear: do not drink seawater, unless you have a real desalination kit. "By drinking seawater, you deplete your body's water supply, which can cause death." Nimur (talk) 14:23, 24 September 2018 (UTC)
- It's pretty clear this is the way it has to work since seawater has more salt than the body's solutes. (almost 4 times as much in fact) Sagittarian Milky Way (talk) 14:56, 24 September 2018 (UTC)
- What about using a funnel, and covering it with a piece of paper, into a bottle. Then constantly pouring the water from a bottle back to the funnel. Well, the easy answer to check is if you see salt piling up in the paper funnel, then you're getting progress. 67.175.224.138 (talk) 02:56, 25 September 2018 (UTC).
- I think I read something about getting the fluid from the eyes and spine of fish but no other fluid from them and not eating and that would keep you going for a while. Rather desperate but needs must I guess. Dmcq (talk) 14:37, 24 September 2018 (UTC)
- They may be incorrectly describing a solar still. --47.146.63.87 (talk) 21:20, 24 September 2018 (UTC)
Baker Dam
Which Baker Dam, upper of lower, uses Pelton turbines?Rossroderick (talk) 15:02, 24 September 2018 (UTC)
Where in the deepest bedrock in the world?
Where is the strongest? (lb/in2 before a load slowly placed directly on a leveled part of the top of the bedrock damages it) Sagittarian Milky Way (talk) 15:54, 24 September 2018 (UTC)
- I'm not clear on what you're asking - bedrock goes from the base of superficial deposits down 10s of km. The strongest part of the crust is at the brittle–ductile transition zone, beneath which higher temperatures promote crystalplasticity. Mikenorton (talk) 17:18, 24 September 2018 (UTC)
- I was asking about the top of the bedrock. Sagittarian Milky Way (talk) 17:31, 24 September 2018 (UTC)
- Do you mean "How far down is the deepest from the surface one has to go to reach bedrock?" --Jayron32 17:41, 24 September 2018 (UTC)
- If you are this paper seems to have all of the data you need. And then some. --Jayron32 17:45, 24 September 2018 (UTC)
- That paper implies that there is a place in the US where the rockhead (that's what the top of bedrock is called) is more than 3 km below the surface. That seems a little high in my view, although I can't see the data that was used to give that value, presumably a borehole record. There are plenty of places globally that have hundreds of metres of superficial deposits however, especially in areas that were once close to the front of ice sheets (during the last glacial maximum), where the mass of sediment coming from the ice sheet infilled any existing topography - valleys, lakes etc. Mikenorton (talk) 19:24, 24 September 2018 (UTC)
- Actually, if you read the paper, they actually made your exact point years before you thought to write it. --Jayron32 03:44, 25 September 2018 (UTC)
- That paper implies that there is a place in the US where the rockhead (that's what the top of bedrock is called) is more than 3 km below the surface. That seems a little high in my view, although I can't see the data that was used to give that value, presumably a borehole record. There are plenty of places globally that have hundreds of metres of superficial deposits however, especially in areas that were once close to the front of ice sheets (during the last glacial maximum), where the mass of sediment coming from the ice sheet infilled any existing topography - valleys, lakes etc. Mikenorton (talk) 19:24, 24 September 2018 (UTC)
- If you are this paper seems to have all of the data you need. And then some. --Jayron32 17:45, 24 September 2018 (UTC)
- Do you mean "How far down is the deepest from the surface one has to go to reach bedrock?" --Jayron32 17:41, 24 September 2018 (UTC)
- I was asking about the top of the bedrock. Sagittarian Milky Way (talk) 17:31, 24 September 2018 (UTC)
September 25
Global Warming in Mexico
Under the various global warming scenarios, does it seem possible/likely that Mexico will become uninhabitable except for mountainous regions?Rich (talk) 00:55, 25 September 2018 (UTC)
- See here: "A 2010 study concluded that under a worst-case scenario for global warming with temperatures 12 °C (22 °F) higher than 2007, the wet-bulb temperature limit for humans could be exceeded around much of the world in future centuries.[10] A 2015 study concluded that parts of the globe could become uninhabitable.[11] An example of the threshold at which the human body is no longer able to cool itself and begins to overheat is a humidity level of 50% and a high heat of 46 °C (115 °F), as this would indicate a wet-bulb temperature of 35 °C (95 °F).[12]". Count Iblis (talk) 04:01, 25 September 2018 (UTC)
- However, that's speaking of global effects of a staggering 12 degrees Celsius of warming, which would take centuries even with unabated emissions. In the tropics and subtropics, which includes Mexico, things will start getting dire much earlier. If you believe this analysis, originally published in New Scientist, at 4 degrees of warming much of Mexico would indeed be close to uninhabitable. And depressingly we have a good chance of hitting 4 degrees by the end of the century if we continue with our present policies. If you haven't read "The Uninhabitable Earth", do so, though you won't be upbeat afterward. --47.146.63.87 (talk) 04:31, 25 September 2018 (UTC)
- Technology can help adapt to the worst conditions. The Inuit adapted to the extreme cold near the north pole, the Tuareg adapted to the extreme heat of the Sahara desert. Walipinis seem a working technological adaption in South America. --Kharon (talk) 04:50, 25 September 2018 (UTC)
- There is a limit. The problem is not just heat but humidity—wet-bulb temperature reflects both. At a wet-bulb temperature of around 35 Celsius, the atmosphere no longer convects heat away from your body, and you quickly cook to death. The tropics are famously humid, as contrasted with dry deserts (including polar deserts). Also there's the minor issue of sustaining a modern agricultural society. The Inuit and Tuareg are historically nomadic, but to keep alive 7.6 billion people and growing, you need to grow food, you need water supplies, and so on. We could debate the exact definition of "uninhabitable", but it's not really important for analyzing the potential future, because people will start evacuating long before the point of "you drop dead if you go outside during the day". --47.146.63.87 (talk) 07:56, 25 September 2018 (UTC)
- Technology can help adapt to the worst conditions. The Inuit adapted to the extreme cold near the north pole, the Tuareg adapted to the extreme heat of the Sahara desert. Walipinis seem a working technological adaption in South America. --Kharon (talk) 04:50, 25 September 2018 (UTC)
- Not a strictly scientific answer, but an interesting fictional consideration of almost exactly the OP's area of interest is to be found in Paolo Bacigalupi's 2015 science fiction novel The Water Knife. {The poster formerly known as 87.81.230.195} 2.221.81.75 (talk) 08:43, 25 September 2018 (UTC)
- Yes, that lethal combination does not exist on Earth - the eastern United States comes closest. 92.31.140.53 (talk) 13:07, 25 September 2018 (UTC)