Wikipedia:Reference desk/Science
of the Wikipedia reference desk.
Main page: Help searching Wikipedia
How can I get my question answered?
- Select the section of the desk that best fits the general topic of your question (see the navigation column to the right).
- Post your question to only one section, providing a short header that gives the topic of your question.
- Type '~~~~' (that is, four tilde characters) at the end – this signs and dates your contribution so we know who wrote what and when.
- Don't post personal contact information – it will be removed. Any answers will be provided here.
- Please be as specific as possible, and include all relevant context – the usefulness of answers may depend on the context.
- Note:
- We don't answer (and may remove) questions that require medical diagnosis or legal advice.
- We don't answer requests for opinions, predictions or debate.
- We don't do your homework for you, though we'll help you past the stuck point.
- We don't conduct original research or provide a free source of ideas, but we'll help you find information you need.
How do I answer a question?
Main page: Wikipedia:Reference desk/Guidelines
- The best answers address the question directly, and back up facts with wikilinks and links to sources. Do not edit others' comments and do not give any medical or legal advice.
July 18
Vickers Hardness Number Notation
why does vickers hardness value is represented as 4500HV without the load ? how do i read it ? what is the load ? help i found this on many websites — Preceding unsigned comment added by Kinetc ner (talk • contribs) 05:47, 18 July 2018 (UTC)
Calibrate radiation detector
"To ensure they got the right items, the specialists from Idaho brought radiation detectors and small samples of dangerous materials to calibrate them: specifically, a plastic-covered disk of plutonium, a material that can be used to fuel nuclear weapons, and another of cesium, a highly radioactive isotope that could potentially be used in a so-called 'dirty' radioactive bomb."[1]
Why did they need "small samples of dangerous materials to calibrate" the "radiation detectors"? Couldn't they just calibrate the radiation detectors before they left on their journey?
I originally raised this question in this thread. Bus stop (talk) 07:08, 18 July 2018 (UTC)
- There are many different radiation detector instruments such as Scintillation counters and the commonest Geiger counter types that may give a readout in counts or radiation dose. An operator should always have access to radioactive calibration samples that allow confirmation that a particular instrument is working, identify its pickup range and demonstrate its different responses to a source and to background radiation. See Geiger counter and, for details of dose measurement Geiger–Müller_tube#Energy_compensation. The Ludlum 3030 pictured in the OP's cited article is a Scintillation counter instrument. DroneB (talk) 16:27, 18 July 2018 (UTC)
- This is just a guess (if you read the article you will see that the government is trying really hard to stop us from finding out any details about this incident), but if you are going somewhere where you will be picking up some radioactive material, you really need two ranges of detection: [A] a high range to tell you if this is a situation where you need to evacuate the entire neighborhood and send in a robot with a lead box, and [B] a really sensitive detector that will tell you if you are leaving a tiny bit behind. [A] and [B] may be ranges on the same instrument or they may be separate instruments. Calibration of [B] really doesn't matter. The only answers you care about are "none detected at the most sensitive range" and "hey, I am getting a trace reading from behind this filing cabinet!" Calibration of [A] is fairly important, but verification that [A] is working and not broken is absolutely critical. Critical as in "a bunch of people could die if the high range of this meter was broken and didn't warn us of the danger." If it were me, I would bring along calibration sources suitable for both ranges and test the meter(s) before and after visiting the site. --Guy Macon (talk) 16:58, 18 July 2018 (UTC)
I found something that seems to be referencing why it may be necessary to calibrate the instruments upon reaching their destination:
"Modern LS counters offer the possibility of both qualitative and quantitative analysis of alpha and beta emitters with high precision and accuracy, offering at the same time low detection limits. As many other instrumental techniques, liquid scintillation spectrometry requires robust and reliable calibration to accurately measure radiation [2, 3]. However, the detection efficiency of the counting equipment will vary depending on a range of factors including radionuclide emission and associated energy, sample composition, scintillator and vial type. All these factors must be accurately quantified and corrected for during routine measurement. In addition, the detection efficiency will vary with time due to deterioration of instrument optics and periodic recalibration is therefore required. In order to address these issues the most commonly used approach is to calibrate the LS spectrometers using a set of standards of known activity and a varying amount of quench."[2]
The term "quench" is spoken of here:
"Liquid scintillation counting makes use of an intimate mixture of radioactive sample and detecting medium which translates atomic radiation into light flashes. The light intensity of such a flash is proportional to the deposited energy in a burst of radiation, but the constant describing this proportionality may change from sample to sample because of chemical differences in various radioactive preparations. This chemical loss in detection efficiency is known as “quenching” and needs calibration if one is to get quantitatively meaningful results from liquid scintillation counting. Many ways are available for measuring quenching correction, and these have been reviewed by Peng [1]."[3]
I can't say I fully understand any of this. Bus stop (talk) 01:22, 19 July 2018 (UTC)
What enzymes take place in glucose re-absorption?
I came across this question and answer in which states that there is a condition in which decreased activity of glucose reabsorption enzymes could be. I googled for "glucose reabsorption enzymes" and found a very few results, most of them are copy paste of this site and don't really have information about that. In addition I red the wiki article "renal glucose reabsorption" and yet I didn't find any reference for such enzyme. Do you have an idea what it is? --93.126.116.89 (talk) 13:24, 18 July 2018 (UTC) "
- You'd be having difficulty because no ordinary person calls it an enzyme. SGLT2. Someguy1221 (talk) 20:36, 18 July 2018 (UTC)
- I agree that the linked question is very poor; the condition discussed is renal glycosuria. Rather than SGLT2 mutation, a more likely cause would be someone taking a gliflozin. Klbrain (talk) 22:27, 22 July 2018 (UTC)
mystery spider
Can anyone identify this spider? She lives in a big web on a bush in Oran, Algeria (near the sea). Maybe 6-8cm, including the legs. Thanks, HenryFlower 15:13, 18 July 2018 (UTC)
- Try and drown it? This should narrow it down, apparently. Martinevans123 (talk) 15:17, 18 July 2018 (UTC)
- Probably an argiope lobata - quite similar to this image. Mikenorton (talk) 15:57, 18 July 2018 (UTC)
- Splendid, thanks (also for the word stabilimenta). HenryFlower 16:52, 18 July 2018 (UTC)Resolved
- Perhaps the painting of the Mona Lisa could be said to contain stabilimenta, or would that be craquelure? Also, that spider appeared to have a thin-faced smile. Please see here in archives. Bus stop (talk) 14:33, 19 July 2018 (UTC)
- Did someone say Leonardo?... and the "Mow-na Lisa"?? Martinevans123 (talk) 21:27, 20 July 2018 (UTC)
- Perhaps the painting of the Mona Lisa could be said to contain stabilimenta, or would that be craquelure? Also, that spider appeared to have a thin-faced smile. Please see here in archives. Bus stop (talk) 14:33, 19 July 2018 (UTC)
- Splendid, thanks (also for the word stabilimenta).
Reference Desk Staff
What are the requirements needed to answer questions here? Limited Brain Cells (talk) 18:27, 18 July 2018 (UTC)
- I don't believe there are any formal requirements and some of us are better than others in providing good-quality answers but to be on the safe side the inclusion of sources is generally a good idea so that anyone reading a response can verify your assertions. Bus stop (talk) 18:54, 18 July 2018 (UTC)
- We have an informational wiki page, Wikipedia:About.
- "Wikipedia is ... based on a model of openly editable content..." Like other pages, the Reference desk is "...written collaboratively by largely anonymous volunteers who write without pay. Anyone with Internet access can write and make changes to Wikipedia articles, except in limited cases where editing is restricted to prevent disruption or vandalism. Users can contribute anonymously, under a pseudonym, or, if they choose to, with their real identity."
- Contributors here are volunteers who choose to help maintain the project. We are not "staff" in the sense that nobody hires us, manages us, or pays us, for our efforts.
- Many of us carry credentials, but the general guidelines are summarized in our informational page on Wikipedia:Expert editors. Being an expert, in this environ, does not carry any special privilege, other than the enhanced ability to write well and to efficiently find and to cite sources.
- Nimur (talk) 22:03, 18 July 2018 (UTC)
There are no requirements, anyone can do it, and many do. "If you have knowledge and the teaching instinct, here is a classroom of the world." 173.228.123.166 (talk) 22:33, 18 July 2018 (UTC)
Lead soldered kettle
I see people repairing kettles with what appears to be solder. Is that lead? Won't that end up in the boiled water? Anna Frodesiak (talk) 20:22, 18 July 2018 (UTC)
- Some solder is lead-free, some has lead. Sagittarian Milky Way (talk) 20:28, 18 July 2018 (UTC)
- The solder sold for pot repair is usually zinc. Someguy1221 (talk) 20:34, 18 July 2018 (UTC)
- Thank you both. Next time I pass a kettle repair shop, I will see what he uses. If it is lead, it is bad, right? Many thanks. Anna Frodesiak (talk) 20:34, 18 July 2018 (UTC)
- Probably? In the case of leaded glass, a food and liquids stored therein take hours to days to reach dangerous concentrations of lead (Lead_glass#Safety). So a lead slow-cooker would probably be disastrous. I have no idea though, if short-term contact can expose the food to a lot of lead if the lead is very hot. I mean, the safety tests with leaded glass were done at around room temperature, not boiling. I'd avoid it if it's lead. Someguy1221 (talk) 20:41, 18 July 2018 (UTC)
- Wow. A lot of people use those kettles here. I do hope it's pure zinc solder. Anna Frodesiak (talk) 20:50, 18 July 2018 (UTC)
- A US penny made after 1982 is nearly pure zinc plated with copper. It can be melted over a (non-electric?) kitchen stove in a spoon but the higher melting point and cost is why zinc is not the first choice for solder. I note that breathing metal vapors might not be harmless Sagittarian Milky Way (talk) 21:41, 18 July 2018 (UTC)
Related: Lead poisoning#History --Guy Macon (talk) 22:12, 18 July 2018 (UTC)
- Soldering is done with solder, an alloy of tin and lead. Neither pure tin, nor pure lead, are much use as solders. Even now that leaded solder is prohibited for many tasks, the tin has to be alloyed with something else (BTW - don't fly on aircraft relying on lead-free solder for their electronics. The unreliability of unleaded solder has already started to kill people.)
- Assuming a repairable "kettle" is made of brass or copper, then it's not much of a hazard if it's used to boil plain water. But either of these metals, used as a general cooking pan, is distinctly unsafe unless it's tinned (lined) inside with solder.
- Leaded solder has a very long history and has largely been an insignificant risk. When vessels or pipes were made of lead, the lead from the solder alloy joining them wasn't an issue. Only in recent years, once we've largely eliminated lead exposure in the diet, has solder become at all significant as a component of the sources for it. As with lead plumbing, it also depends what your water is like and what you're cooking. Hard water is of very little risk with lead, as it deposits calcium minerals on it, rather than dissolving the metal (any metal). Soft water though, or something more acidic, such as pickling for preservation, and you have a much more serious exposure risk - and copper is perhaps worse than lead here, at least for acute toxicity. Andy Dingley (talk) 23:39, 18 July 2018 (UTC)
- Airplanes still have lead in their gas - why would they bother taking lead out of the solder? Anyway, I'm going to have to call "citation-needed" on the claim that fatalities have been reliably attributed specifically to an electronic failure directly caused by the use of unleaded solder ... that seems like a pretty specific claim that warrants a reliable source to back it up. Nimur (talk) 04:24, 19 July 2018 (UTC)
- Not for the passengers, but for the assembly line workers putting the things together. Greglocock (talk) 06:06, 19 July 2018 (UTC)
- Not exactly death, but here is a reliable source for potential deaths: [4] --Guy Macon (talk) 05:58, 19 July 2018 (UTC)
- That's only true for aviation gasoline, which you linked. Only piston-engine small planes use that; jet engines use jet fuel. Of course I still think it should be banned. --47.146.63.87 (talk) 06:51, 19 July 2018 (UTC)
- Aviation (and other safety critical industries) has an exception which permits leaded solder in its electronics. However lead-free electronics has distinct long-term reliability problems (see tin whiskers), and the lead-free majority of components are finding their way into many products, even those requiring reliability. Andy Dingley (talk) 08:36, 19 July 2018 (UTC)
- Airplanes still have lead in their gas - why would they bother taking lead out of the solder? Anyway, I'm going to have to call "citation-needed" on the claim that fatalities have been reliably attributed specifically to an electronic failure directly caused by the use of unleaded solder ... that seems like a pretty specific claim that warrants a reliable source to back it up. Nimur (talk) 04:24, 19 July 2018 (UTC)
Thank you all. By the way, Andy, the kettles I see getting repaired here appear to be stainless steel or something. Definitely not copper anything. Anna Frodesiak (talk) 04:47, 19 July 2018 (UTC)
Unhelpful. Matt Deres (talk) 11:57, 19 July 2018 (UTC) |
---|
The following discussion has been closed. Please do not modify it. |
Hat this, please. Anna Frodesiak (talk) 07:31, 19 July 2018 (UTC) |
- I'm surprised to see stainless steel kettles being repaired. I would expect India to be doing this, possibly China, but very rare elsewhere. Stainless steel is not a ductile metal, so it's impractical to make a stainless steel vessel by hand, rather than using large powered machines. So countries (such as Turkey or India) where there's still a large market for hand-make vessels are largely making them from copper or brass, then repairing them later. Once stainless steel becomes widely adopted though, the manufacturing economy has shifted to factory production of one-use, non-repairable items on the Western model. India also uses a lot of thin stainless sheet for cooking vessels and tableware. This stainless sees far less hand repair afterwards - it doesn't need it (much harder to wear such items out than a copper pot) and it's also harder to do (soldering stainless is hard work and often unpleasant). I solder stainless steel a lot myself, but I do it by hard soldering (a gas flame) rather than soft soldering, at a lower temperature with a heated metal tool or soldering iron (which is usually a block of copper, not iron). The solder and flux I use is silver solder, which is expensive because of its silver content, and also (the older grades) quite toxic because it contains cadmium. You really don't want cadmium alongside food. Cadmium has largely gone from silver solder now, but that increases the silver content and price even more so. Even the flux, a fluoride compound, has aggressive fumes when heated. Andy Dingley (talk) 08:36, 19 July 2018 (UTC)
- Hi Andy. First, yes, China may indeed still use lead and be a bit behind the times. However, this repair thing is rare. We're seeing the very last of the walking knife sharpener, the small, kettle repair shop, and I haven't seen a puffed grain man in years. There are probably only half a dozen kettle repair shops in this city of 2 million, and they'll likely be gone for good in a couple of years.
- So, understood about the solder. That is very interesting, actually, and seems a bit asbestosy, in terms of 'you shouldn't be near it'. The repairmen, by the way, just seem to fix teensy holes. Also, I think I saw them once take off a bottom and solder it back on. So strange, these kettles are cheap. Why fix them? I guess the old people are a bit stuck in their ways here and are used to fixing things to save money. Young people would never do that. Best wishes and many thanks for the thoughtful answers. Anna Frodesiak (talk) 18:01, 19 July 2018 (UTC)
July 19
Does gravity always point to *somewhere* in the Earth's core?
I know there are points on the Earth's surface where gravity points along a line that detectably misses the Earth's center of mass. But are there any where a line in the direction of gravity doesn't even go through the Earth's core? NeonMerlin 08:11, 19 July 2018 (UTC)
- No, the Earth's gravitational field is nearly spherically symmetrical. Deviations from this symmetry are small. Ruslik_Zero 08:45, 19 July 2018 (UTC)
- [e/c] :No. Assuming the Earth is a homogeneous density sphere, (which it is not) the gravity vector will always pass through the geocenter. However, since the Earth is actually a bit elipsoidic, (see Reference ellipsoid) there is a difference in angle between spherical and ellipsoid normals (Vertical deflection -- see also: geoid). This difference is very small, however, relative to the diameter of the Earth's core. Also, since the core is more dense than Earth's average, this will add even more "attraction" to the center. There are some gravitational anomalies (local variations of the gravity field) that distort the force vector angle, but doubtfully enough to bypass the core; there might be an artificial condition where this is not true -- perhaps standing right next to Fort Knox? —2606:A000:1126:4CA:0:98F2:CFF6:1782 (talk) 09:05, 19 July 2018 (UTC) ... since your two questions are diametrically opposed (colloquially, not literally), the answers are "yes" and "no".
- The core is really big, with a radius of 3,470 km, it would have to be a huge deflection (33°), which is highly unlikely - see vertical deflection, which talks about deflections up to 50 seconds of arc. Mikenorton (talk) 09:30, 19 July 2018 (UTC)
- Guys, that's the kind of question where you need to show the numbers.
- Gravity of Earth is the relevant article here. The two most important effects that explain local variations of gravity are (1) the centrifugal force due to Earth's rotation and (2) the fact Earth is not exactly round but slightly flattened at the poles. The article states that the combined effect is a 0.5% change in g between poles and equator
(this is why all space rocket launching pads are near the equator). By comparison, local deviations are about 0.005% of g (5e-4 m/s2 max changes, g~10m/s2). - The exact details of how much of the variation in magnitude changes the direction of the gravity vector depending on the latitude need more calculus than I am willing to do, but fortunately very rough assumptions get us what we want. In the worst case scenario, the 0.5% change in g's magnitude comes from an additional pull perpendicular to g (this maximises the deviation). A bit of trigonometry (solve cos(theta)=1/(1 + 0.5%) for theta) tells us the deviation is less than 6° (by the way, this is higher than I would have expected).
- On the other hand, Earth's inner core is seen from an angle of two times 10.8° (some more trigo with Earth radius = 6400km, core radius = 1220km). So even with all assumptions lined up in the worse case, we still get that the gravity vector will pass through the inner core. TigraanClick here to contact me 09:40, 19 July 2018 (UTC)
- Indeed. The Schiehallion experiment measured deviations from the local zenith of around 11 seconds of arc. Similar (but less precise) measurements around Chimborazo measured deviations of 8 seconds of arc. Over a distance of 6360 km (radius of the Earth) these sizes of deflections result in a deviation of less than 1 km away from the geometric centre of the Earth. Gandalf61 (talk) 11:43, 19 July 2018 (UTC)
- Re "(this is why all space rocket launching pads are near the equator)". The difference in gravitational force is not the main reason rockets are launched from near the equator. Rather, it's because the earth's rotation means the rocket is already traveling east at close to 1000 miles/hour even before it launches. The additional velocity means less fuel required. The hard part of getting into orbit is achieving orbital velocity, not reaching a specific height. [5] [6] — Preceding unsigned comment added by CodeTalker (talk • contribs)
- Huh... I somehow thought that was the same effect, but of course it is not (speed in the geocentric frame of reference vs. centrifugal force in the terrestrial, non-inertial frame). Struck accordingly, see also discussion below. TigraanClick here to contact me 08:06, 20 July 2018 (UTC)
- Re "(this is why all space rocket launching pads are near the equator)". The difference in gravitational force is not the main reason rockets are launched from near the equator. Rather, it's because the earth's rotation means the rocket is already traveling east at close to 1000 miles/hour even before it launches. The additional velocity means less fuel required. The hard part of getting into orbit is achieving orbital velocity, not reaching a specific height. [5] [6] — Preceding unsigned comment added by CodeTalker (talk • contribs)
- To dispel some very common misconceptions: spacecraft launch sites can be located anywhere on Earth. The geographic location of the launch site is selected for many reasons, not the least of which is orbital dynamics; but there are many other factors, including range safety, redundancy, and convenience - it's important to have easy access to a bunch of rocket scientists, who don't necessarily all want to live on the launch site! Here's a list of NASA's primary launch sites; but not all American orbital (and sub-orbital) launches are managed by NASA. Notably, yesterday a New Shepard 3 launched from West Texas, an operation that was largely conducted without overtly depending on NASA's money or help.
- I would use caution before spouting anything about equatorial rotational inertia unless you've worked through the orbital flight dynamics equations - orbits aren't really that simple - and I can spout some counterexamples off the top of my head. For example I've been to spacecraft launch sites at Kodiak Island and Vandenberg Air Force Base: sites from which the spacecrafts can fly westbound or northbound or pretty much where-ever they want to fly. Quoting directly from NASA's website, "Kodiak Island is one of the best locations in the world for polar launch operations, providing a wide launch azimuth and unobstructed downrange flight path..."!
- Nimur (talk) 18:33, 19 July 2018 (UTC)
- Do they launch low-inclination orbits from Kodiak? Sagittarian Milky Way (talk) 19:51, 19 July 2018 (UTC)
- With enough ΔV, you can get to any orbit! That maneuver would be called a "dog leg" on the launch trajectory, and it's expensive (you have to spend fuel to do it) - but any orbit is possible if the people buying the launch want to use their mass (and dollar) budget in that way. Nimur (talk) 22:22, 19 July 2018 (UTC)
- Indeed. Likewise a launch from the equator that ends up going over the poles would require a dogleg. Not sure whether it would use more energy than was gained by the equatorial launch -- it feels like it should but I would have to do the math. --Guy Macon (talk) 23:45, 19 July 2018 (UTC)
- Orbital inclination changed are ludicrously expensive in terms of energy. If they weren't, there wouldn't be separate low and high inclination launch sites. An extreme example, a LEO craft launched from KSC want to transfer to a 90 degree inclination polar orbit. Plane change delta v for circular orbits is :. Assuming a LEO orbital speed of 7 km/s, the delta v required for that plane change is 7.4 km/s again. Or almost as much as it took to launch in the first place. Of course, there are tricks to lower that, but it illustrates my point. Doglegging during launch is severely restricted by overflight considerations on most launch sites. Fgf10 (talk) 07:06, 20 July 2018 (UTC)
- Indeed. Likewise a launch from the equator that ends up going over the poles would require a dogleg. Not sure whether it would use more energy than was gained by the equatorial launch -- it feels like it should but I would have to do the math. --Guy Macon (talk) 23:45, 19 July 2018 (UTC)
- With enough ΔV, you can get to any orbit! That maneuver would be called a "dog leg" on the launch trajectory, and it's expensive (you have to spend fuel to do it) - but any orbit is possible if the people buying the launch want to use their mass (and dollar) budget in that way. Nimur (talk) 22:22, 19 July 2018 (UTC)
- Do they launch low-inclination orbits from Kodiak? Sagittarian Milky Way (talk) 19:51, 19 July 2018 (UTC)
- Maybe sort of related: shell theorem. Although the Earth isn't perfectly symmetrical, the deviation is pretty tiny given the scale of the Earth. The standard factoid is that the Earth is, to scale, smoother than a billiard ball. --47.146.63.87 (talk) 06:54, 20 July 2018 (UTC)
- No. A pool ball is much smoother than the (whole) Earth would be if it were shrunk down to the size of a pool ball, though much of the Earth’s surface is indeed smoother than a pool ball. DroneB (talk) 13:11, 20 July 2018 (UTC)
July 20
Photon as "information"
Sometimes I hear photons described or used synonymously with "information". Can anyone help me understand or point me to resources that explain this comparison?
As an example, in a youtube video on the Black_hole_information_paradox, at around 3:45, the speaker states that, "The black hole radiates particles, mostly photons - that contain no information. Eventually the black hole must completely evaporate into those particles leaving no clue as to what fell into it in the first place."
I understand the evaporation and paradox aspects of what is being said, but am unclear how "information" and "photon" relate. — Preceding unsigned comment added by 128.229.4.2 (talk) 14:56, 20 July 2018 (UTC)
- A photon is not information; a photon can be used to carry information, if and only if some property of the photon can be controlled - like when it gets emitted, or what its frequency is, and so on. Formally, that would mean that we can express this "controllable" property using a causal relationship to some other property; then, if we took a measurement of the output property, it would have carried information about the causative property that we did not directly measure.
- In the case of an engineered system like fiber-optic communication, individual photons don't actually carry the information: instead, information is encoded into the rate of arrival of groups of photons, treated as an ensemble. The arrival of any one specific individual photon is called shot noise. The arrival of a whole lot of photons within a specific interval, per the engineered specification of the system, carries information.
- There is a fun mathematical conundrum of quantum mechanics here - how can one single event be noise, but if we put two otherwise identical events together, they constitute a non-noise signal? This is the property of coherence. In real engineered systems, we use more than two photons so that we can build reliable machinery; but in the realm of theoretical physics or in the study of natural systems, we might investigate the behavior of this single-particle information-carrying behavior using the mathematical and analytical tools of thermodynamics; and we might construct testable hypotheses using the methods of experimental physics; and then we might use those tools to draw conclusions that apply to the more difficult realm of black hole thermodynamics.
- Ultimately, when you hear a pop-science publication talking about why black holes do (or do not) emit "information," they are using loose terminology to describe the incoherent emission of radiated energy. Whether those statements are accurate, or valid, depends on the quality and currency of the documentary you're watching!
- Nimur (talk) 17:10, 20 July 2018 (UTC)
- There is something out there about the concept of physicality of information. I haven't found a layman explanation of it (I tried googling). Apparently somehow information is as "real" and permanent as particles of matter? There are Conservation laws but that article does not contain the word "information". Black hole information paradox kind of hints at it but seems to lack an explanation why it is a paradox. Any help on this for us non-quantum-theorists? Or am I chasing a red herring, in which case can you explain why the black hole information paradox is a paradox? 85.76.73.51 (talk) 17:28, 20 July 2018 (UTC)
- The "paradox" is a way to express a disagreement about whether a property's measured state is statistically certain, or absolutely certain. Some physicists believed these words described distinct concepts; and certain specific mathematical models of the black hole provided an example where we could differentiate between the two conditions. As of the time of this writing, the consensus seems to be − there is not any paradox, because there is no actual way to distinguish these two conditions apart. (One of the very last peer-reviewed publications by Stephen Hawking was Information loss in black holes, (2005), in Physical Review - if you can read and understand that paper, you can understand the paradox and Prof. Hawking's position regarding its resolution... and if you can't read and understand that paper... well... you're one of many).
- I mean, it's a little bit of a disservice that this "paradox" has been brought to the forefront of the popular conception of modern physics. It's a minor debate about the minutia of the problem. To really understand it, you've got to invest a lot of up-front intellectual effort. And if you actually do that, you'll find many more interesting things to spend your intellectual efforts on! Nimur (talk) 17:41, 20 July 2018 (UTC)
- Oh, I don't know Nimur, I find the epistemological questions here, including those involved with that particular question, endlessly fascinating. Anyway, here are the two most accessible/least technical sources I was able to find on the matter for the OP, one of which takes it's title and general thrust from exactly the question the OP has posited in their inquiry: Physical_information, [7]. There's a bevy of additional information out there, though, if you know the right search terms, so if these fail to address your questions, OP, let me know. Snow let's rap 06:08, 21 July 2018 (UTC)
- Thanks Snow, the link to Physical_information was definitely helpful. 128.229.4.2 (talk) 14:29, 23 July 2018 (UTC)
- Happy to be of assistance. :) Snow let's rap 18:32, 23 July 2018 (UTC)
- Thanks Snow, the link to Physical_information was definitely helpful. 128.229.4.2 (talk) 14:29, 23 July 2018 (UTC)
- Oh, I don't know Nimur, I find the epistemological questions here, including those involved with that particular question, endlessly fascinating. Anyway, here are the two most accessible/least technical sources I was able to find on the matter for the OP, one of which takes it's title and general thrust from exactly the question the OP has posited in their inquiry: Physical_information, [7]. There's a bevy of additional information out there, though, if you know the right search terms, so if these fail to address your questions, OP, let me know. Snow let's rap 06:08, 21 July 2018 (UTC)
- That photons are not information, but carry information is a helpful clarification Nimur. Thank you.
- I also came across another video that says "Light not only interacts with matter, it is also altered by it, and can be used to gather information about the world around it, with almost no delay...". This helps me understand. 128.229.4.2 (talk) 19:05, 20 July 2018 (UTC)
- There is something out there about the concept of physicality of information. I haven't found a layman explanation of it (I tried googling). Apparently somehow information is as "real" and permanent as particles of matter? There are Conservation laws but that article does not contain the word "information". Black hole information paradox kind of hints at it but seems to lack an explanation why it is a paradox. Any help on this for us non-quantum-theorists? Or am I chasing a red herring, in which case can you explain why the black hole information paradox is a paradox? 85.76.73.51 (talk) 17:28, 20 July 2018 (UTC)
- There has been quite a bit by Leonard Susskind equating quantum entanglement with wormholes. I am not fit to really recommend the best of it, but there may be a way to get at physicality of information that way (I don't know). Wnt (talk) 21:28, 21 July 2018 (UTC)
Balance and vision
Does the human brain use vision to establish balance? Does a blind or short sighted person have worse balance? Would closing your eyes make you have worse balance? Clover345 (talk) 19:08, 20 July 2018 (UTC)
- Yes, vision plays a role. In most people, the semicircular canals are the most important factor, and vision only plays a minor assistive role, along with proprioception. However, people whose semicircular canals are non-functional (this happens in a substantial fraction of deaf people) may have to rely entirely on vision to balance. See our Balance disorder article for more information. Looie496 (talk) 20:02, 20 July 2018 (UTC)
- A standard clinical test for vestibular function is to ask someone to stand, then ask them to close their eyes. The loss of visual information, in addition to a loss of vestibular cues, leads to them losing their balance. It needs to be done with someone available to support them as they sway. Klbrain (talk) 22:48, 22 July 2018 (UTC)
How germs get inside the body
I'm using "germs" as a collective term for viruses, parasites, fungi, and bacteria. They can all be called "microorganisms", but that name is a mouthful. So, I'm sticking with "germs" and "bugs". I am aware of the ways that germs get inside the body - by vapor, by food and water, by broken skin, and by intimate touching. What makes the inner lining of sexual body parts so defenseless against pathogens that some pathogens ONLY use this route to climb onto another individual? Perhaps, the vaginal walls, unlike skin, don't have layers and layers of protection. So, germs can easily pass through the cells or infect the cells. Take HIV, for example. There seems to be no reported cases of HIV being able to infect a person through contaminated food. So, HIV cannot survive in food or in the water supply or pollute the air. It can only spread by bodily fluids - using contaminated needles, breastfeeding, and having sexual intercourse. Also, unlike the digestive system, the vagina is not acidic enough to burn the bugs. And some bugs don't travel through air, because they can't. They can only travel by close contact, and sexual intercourse is a super-close contact. The man and woman during coitus are not next to each other. The man's penis is placed into the woman's vagina, and if sperm can travel up to the uterus, then so can bugs and germs, can it? That is literally inside an organ. This question is not about how a bug infects a cell, but how a bug - especially a bug that primarily relies on super-close contact - gets inside the body. SSS (talk) 19:11, 20 July 2018 (UTC)
- Mucosa is a useful term here. Very few infectious organisms make it through unbroken skin. The usual routes are inhalation, cuts, the digestive tract (not all of them, as it's a permeable but hostile route) and also (as you copiously mention) sex. There's also an issue of transmission from an infected person - some diseases are hard to catch from someone, because they're not releasing it except by bodily fluids, and then some diseases (such as haemorrhagic fevers) are far more easily transmissible because they produce fluids, or more of them, than are normally present. Ebola is a sexually transmitted disease, but then so's everything. However STDs are those which are only transmissible (in significant numbers) by sex. Andy Dingley (talk) 21:09, 20 July 2018 (UTC)
- A key concept here is cornification. Cornification leaves external skin covered by multiple layers of dead cells which are uninfectable and present a physical barrier over the cells that could be infected. Many internal surfaces also have stratified squamous epithelium, but it is not cornified, needs to be kept moist, and doesn't have the same degree of resistance. This is why "mucous membranes" are a target for colds and worse. Now "mucosal immunology" gets much more complicate than this - this paper is about HIV-infected T cells outside the body wandering around epithelium somehow sniffing for the epithelial cells right right over stromal macrophages - these T cells form an "immunological synapse" that delivers the virus to be transcytosed through the epithelial cell into the macrophage to infect it. This is obviously some very specific biology being hacked by the virus; it is almost like a single cell's version of an STD! Wnt (talk) 21:12, 20 July 2018 (UTC)
Upside down glasses
I'm looking for the article about the glasses/experiment where they put those on people to make the whole world upside down. First, they fell about. Then, after a day or so, they got used to it. Then, when they took them off, they fell about again. Do we have coverage of that at Wikipedia? Anna Frodesiak (talk) 20:08, 20 July 2018 (UTC)
- See George M. Stratton. Mikenorton (talk) 20:11, 20 July 2018 (UTC)
- Thank you, Mikenorton. I think we need a bunch of redirects to it. Anna Frodesiak (talk) 20:14, 20 July 2018 (UTC)
- Actually, I just found Neural adaptation#History with similar content. What should be done? Anna Frodesiak (talk) 20:15, 20 July 2018 (UTC)
- That image of a "Modern version of inverting mirrors with harness" sure doesn't look very up to date to me. Martinevans123 (talk) 20:47, 20 July 2018 (UTC)
- Looks like a skateboard helmet and medical tape. Anna Frodesiak (talk) 20:49, 20 July 2018 (UTC)
- Yes, after a trip to A&E on a bad night? Probably even more effective than beer goggles. Martinevans123 (talk) 21:12, 20 July 2018 (UTC)
- Looks like a skateboard helmet and medical tape. Anna Frodesiak (talk) 20:49, 20 July 2018 (UTC)
- That image of a "Modern version of inverting mirrors with harness" sure doesn't look very up to date to me. Martinevans123 (talk) 20:47, 20 July 2018 (UTC)
- As a start I've changed "Perceptual adaptation" in the "see also" section of the Stratton article to "Neural adaptation" so at least there is a clear link between the articles. Apart from that, I'm not sure what should be changed as the content is not identical. Mikenorton (talk) 20:31, 20 July 2018 (UTC)
- Actually, I just found Neural adaptation#History with similar content. What should be done? Anna Frodesiak (talk) 20:15, 20 July 2018 (UTC)
- Sounds good. What about redirects? I think these glasses have a different names. Search engines say reversing goggles, prism glasses, and we could make up a couple that we guess visitors would type into the search box, like upside down glasses. Target? Anna Frodesiak (talk) 20:40, 20 July 2018 (UTC)
- I can find inverting glasses, inverting spectacles, inversion goggles, inverted vision glasses and upside down glasses as well, so lots of options. As to the target, currently the section in the Stratton article looks like the best bet. Mikenorton (talk) 21:03, 20 July 2018 (UTC)
- Sounds good. What about redirects? I think these glasses have a different names. Search engines say reversing goggles, prism glasses, and we could make up a couple that we guess visitors would type into the search box, like upside down glasses. Target? Anna Frodesiak (talk) 20:40, 20 July 2018 (UTC)
- Okay, created several redirects based on what you wrote above, example here. Many thanks, Mikenorton. Anna Frodesiak (talk) 02:32, 21 July 2018 (UTC)
Rubbing alcohol
If you sterilize your hands with it, can it go into your body and make you dead? Anna Frodesiak (talk) 20:41, 20 July 2018 (UTC)
- Rubbing alcohol is typically used for disinfection on skin. SSS (talk) 20:50, 20 July 2018 (UTC)
- (edit conflict) WP:NOMEDICAL and all, but that sounds highly unlikely given that it's a common ingredient in many hand sanitizers and our article on it notes that it's "used primarily as a topical antiseptic". Drinking it would be a very bad idea, though. Ian.thomson (talk) 20:52, 20 July 2018 (UTC)
- Thank you. That's what I thought. Anna Frodesiak (talk) 20:56, 20 July 2018 (UTC)
- (EC) Our article states "Poisoning can occur from ingestion, inhalation, absorption, or consumption of rubbing alcohol", so assuming that you're not intending to drink it and you're not going to eat something with your hands still covered in it, the main thing is probably to use it in a well ventilated area - for absorption, short exposure should be fine " Dermal exposure to the liquid and vapour. There is little absorption through intact skin, but significant delayed absorption over 4 hours postulated (Martinez, 1986). Note risk of inhalation after prolonged skin exposure (sponging, etc.)" from here. Mikenorton (talk) 20:58, 20 July 2018 (UTC)
- Yes. But it's no big deal. We can metabolise a lot of alcohol, no problem. I use a lot of them in my workshop and I'm getting fussier as to which. Alcohols are OK, acetone is OK, I've replaced my hexane with heptane because of the hepatotoxicity risks, and I avoid benzene or carbon disulphide or chlorinated solvents.
- I use a lot of methylated spirits, such that I've nearly run out and I'm facing a hard task to replace it. The "standard" stuff is bright purple, stinks of pyridine and is mostly cheap methanol with some ethanol in it. Don't drink it - methanol is bad for you (standard antidote is vodka, as a clean source of ethanol). But if you're a summer woodworker, you really want to avoid both the purple dye and the stench. It's very hard to buy the industrial grade without them though.
- If you work in healthcare, the the vast use of alcohol hand sanitisers these days is a problem. They degrease the skin, and skin oils are an emollient to soften the skin and stop it cracking, also to make the skin less permeable. So degreased, cracked, heavily sanitised skin becomes more of a risk for infection. If you're doing this twice every half hour, then it's also important to moisturise. Andy Dingley (talk) 21:20, 20 July 2018 (UTC)
- I also highly recommend against gargling with it. It burns much worse than 80 proof ethanol. Sagittarian Milky Way (talk) 23:47, 20 July 2018 (UTC)
Thank you all! Anna Frodesiak (talk) 01:35, 21 July 2018 (UTC)
Andy, is there anything you do not know? :) You must be very handy about the house. So, are you saying hospitals have no use for good ol' rubbing alcohol without the extras? When they give you an injection, what do they use on the little cotton ball? Anna Frodesiak (talk) 01:35, 21 July 2018 (UTC)
- There's a difference between what you rub on the patient (once or twice) and what you rub on the staff (fifty times a day). As we've increased the sanitisation of staff so much in recent years, we're now seeing chronic issues that were unexpected - such as the skin degreasing effect. Andy Dingley (talk) 08:53, 21 July 2018 (UTC)
- Ah, okay. And yes, →we've gone overboard with this germ killing thing. A bit of Cussons Imperial Leather is fine with me. And nobody gets food poisoning here much. I guess we all get a bit of this and that, so we're immune. I know geckos run on our clean dishes before use. We never got sick. Anna Frodesiak (talk) 08:57, 21 July 2018 (UTC)
- There aren't many reptilian diseases which are transmissible to humans. Mice would be quite another matter. Flies are a problem, not because we catch fly diseases, but because of their unclean habits with other human waste. Andy Dingley (talk) 19:07, 21 July 2018 (UTC)
- Hi Andy. That's good to hear because Haikou has no mice and very few flies. Anna Frodesiak (talk) 20:21, 21 July 2018 (UTC)
I'm going to call a major [citation needed] on the claim "
we've gone overboard with this germ killing thing
" in response to the topic of discussion namely hand sanitisation in healthcare settings and especially hospitals. (To be clear, I'm not saying Andy Dingley was making that claim, it seems to originate from Anna Frodesiak.)It's well recognised that Hospital-acquired infections are a major problem worldwide causing many deaths and other negative consequences. With the increasing prevelance of antiobiotic resistance, colonisation [8] is also a major problem in itself even when it doesn't lead to an infection at the time. (Increasing antibiotic resistance is also one reason why just throwing antibiotics at the problem when it occurs, even ignoring that it doesn't always work even without resistance, is clearly not a solution.) </p
By no means do these all come from staff hands but hand hygeine, staff, patient and visitor is generally considered an important factor in reducing infections and colonisations. Our article albeit unsourced says
Handwashing frequently is called the single most important measure to reduce the risks of transmitting skin microorganisms from one person to another or from one site to another on the same patient.
This says something similar [9]. More generally, there are many studies demonstrating the benefits of good hand hygeine in reducing HAI including I think colonisation.About the soap vs. hand sanitiser issue, AFAIK the big factors tend to be time and facilities. Proper hand washing generally takes IIRC 45 seconds or so. Drying then adds more time. I'm not sure how much worse improper handwashing performs, although insufficient drying definitely can definitely be a significant problem [10]. While hand sanitiser misuse likely also negatively affects performance, the main requirement tends to be ensuring it covers the entire surface of both hands and rubbing over the hands until dry [11] so is somewhat easier to follow. Also as AD mentioned, for staff, we're talking about something which is often supposed to be performed every 30 minutes or less, and maybe also after every contact with a patient. For visitors and patients, especially those with limited mobility, the number who will or able to visit a sink to wash and dry their hands compared to those who will use the sanitiser at the bed or door is likely to be fairly different.
At least for my local DHB, and also by that CDC ref to some extent, the general recommendation in healthcare settings is if the hands are visibily soiled e.g. with blood, urine, faecal matter to use soap and water, but otherwise hand sanitiser is sufficient. (I think handwashing is recommended after visiting the toilet without checking for visible soiling.) Regular moisturisation is also recommended (well for the DHB recommendations at least at least). However I don't think using soap instead of hand sanitiser is considered wrong provided proper steps are followed. Actually I wouldn't be surprised if it's better if really done as regularly.Although I'm not sure if bar soap is not going to work well in many healthcare settings. (They may be used for surgical hand scrubs although medicated ones seem to be the minimum recommended [12] [13].) Note that as the CDC ref also says, in many settings outside of healthcare, hand sanitisers are only recommended if water and soap are not available.
I'm not sure why you brought up food poisoning. AFAIK it's often only one, and probably a minor one at that, of the risks of infections in healthcare settings. Note that we should not conflate the problems and solutions in healthcare settings with those in other areas. For example, I'm fairly sure many proponents of the hygiene hypothesis and those who think there is excessive use of antiseptics (which includes the CDC and many other healthcare related organisations) and excessive concern about bacterial counts etc especially in homes who will say this has limited relevance to hygiene requirements in most healthcare settings where there is generally a congregation of patients with infections and patients with weaked immune systems. (And even within healthcare settings there are differences, e.g. surgical handscrubs vs normal hand hygeine.)
That said, while I don't know about the specifics of Haikou, I'm fairly sure food-borne illness are a significant problem in a lot of China as they are in pretty much all of the world with significant numbers of humans. If anyone is claiming otherwise, this isn't just a [citation needed] case but an extraordinary claims require extraordinary evidence case IMO since basically no one else has come even close. (So to be clear, this isn't an anti-China thing, it applies to pretty much everywhere.)
This Lancet world report article (which I presume means it's not peer reviewed) [14] mentions how although the number of reported deaths is very low, it's very likely this is in part because of the limitations in the monitoring systems there and mentions some of the challenges etc. The WHO estimates 125 million people falling ill a year in the Western Pacific region [15]. While they list individual countries at least there, my earlier point remains if the claim is made these are nearly all coming from Japan, Philippines, Viet Nam, South Korea, Malaysia etc [16]. (Actually I think you can exclude Japan, it looks like WPR B itself is around 120 million [17], probably also can be derived from [18] or [19].) Admittedly one of the biggest causes of death, liver cancer from aflatoxin, may not fall under the ordinary definition of food poisoning. And that, and parasites another major problem aren't really affected by hand hygeine. And to be clear again, I don't want this to be some sort of pro or anti China bitch fest. This [20] for example shows that China did very well in terms of meeting the target for the "Mortality rate attributed to exposure to unsafe water, sanitation and hygiene".
- There aren't many reptilian diseases which are transmissible to humans. Mice would be quite another matter. Flies are a problem, not because we catch fly diseases, but because of their unclean habits with other human waste. Andy Dingley (talk) 19:07, 21 July 2018 (UTC)
- Ah, okay. And yes, →we've gone overboard with this germ killing thing. A bit of Cussons Imperial Leather is fine with me. And nobody gets food poisoning here much. I guess we all get a bit of this and that, so we're immune. I know geckos run on our clean dishes before use. We never got sick. Anna Frodesiak (talk) 08:57, 21 July 2018 (UTC)
NIST and WTC's dust
Is NIST conducted a research of WTC's dust as part of NIST's investigation of the collapse of WTC 1, 2 and 7? 37.142.4.56 (talk) 21:25, 20 July 2018 (UTC)
- Wikipedia has a fairly extensive, well-referenced, and decently written article on this topic at Health effects arising from the September 11 attacks. You can use that as a starting point for your research. --Jayron32 21:29, 20 July 2018 (UTC)
- Carcinogens often take several decades to cause cancer so you couldn't know the full effects now or even in 2030. Asbestos use tailed off very long ago and people contracted asbestosis from before then for quite a long time after. It'd be interesting to see if the 2031 cancer getting rate is higher for people who lived in Downtown Manhattan and Brooklyn then similar places like Midtown and Queens. I often looked to see which way the Ground Zero smoke string was pointing and never saw it get very far from the climatological average direction (westerlies). Minutes or hours after the collapses, the visible ash string stretched to the horizon or almost (Ground Zero is only 16 acres remember), it was at least c. 10 miles long for days and took weeks before you could only see smoke from less than 10 kilometers away from a low roof. If you stood on a street pointing to the heart of Ground Zero in mid-December you could still see smoke from smoldering underground fires from at least hundreds of yards away. Sagittarian Milky Way (talk) 23:45, 20 July 2018 (UTC)
- So It's a yes or no? 37.142.4.56 (talk) 06:26, 21 July 2018 (UTC)
- The objectives of the NIST investigation are listed here and the final reports themselves are linked here. I don't know the answer to your question, but with enough reading you could find it.--Wikimedes (talk) 07:11, 21 July 2018 (UTC)
- So It's a yes or no? 37.142.4.56 (talk) 06:26, 21 July 2018 (UTC)
July 21
Giving birth
In movie scenes in which the mother is giving birth, a person may say, “Push!” to order the mother to push the baby out. Is the mother really pushing the baby out the same way feces is pushed out the digestive tract? Can the baby go out by itself? SSS (talk) 01:07, 21 July 2018 (UTC)
- Here is a book you might find at a local library or bookstore: How Sex Works (1994), which has chapters on pregnancy and childbirth. The book gives an informative, objective overview in a manner that is suitable for citation as an encyclopedic reference. Wikipedia also has a detailed article on childbirth, from which you can find links to related articles on anatomy and physiology. Nimur (talk) 02:06, 21 July 2018 (UTC)
- This site by physical therapists describes some of the exercises used, and comments that doing "perineal bulges" "trains you to push during delivery without holding your breath. Holding your breath while pushing is call Valsalva. Valsalva can decrease the rate of blood flow back to the heart, lower maternal blood pressure, decrease maternal blood oxygen and blood flow to the placenta, and increase the risk for injury. It also can increase fetal head compression and fetal distress." From that description it sounds like the Valsalva maneuver, also known as a tactic for defecation, is not recommended for delivery but is used. However, bear in mind that the colon and uterus each have their own set of powerful muscles, which are of course distinct. Wnt (talk) 11:33, 21 July 2018 (UTC)
Can the baby go out by itself?
No, the baby has a decreased level of consciousness during delivery. (I swear I read this somewhere, but for the life of me I can't find any source right now. Help would be appreciated.) In a "normal" birth, the baby is pushed out by the muscles of the uterus. If this doesn't go right for whatever reason, you have obstructed labor, and medical intervention may be necessary. --47.146.63.87 (talk) 07:39, 22 July 2018 (UTC)- The uterus is made of smooth muscle which can contract independently of any voluntary control, and it doesn't even need an intact nervous system in order to do so. Therefore, contractions can continue while someone is unconscious, and sometimes this (rarely) has led to vaginal delivery while unconscious. Usually medical/nursing staff wouldn't let this happen, preferring the more controlled caesarian. Klbrain (talk) 23:23, 22 July 2018 (UTC)
- The mother doesn't even need to be alive... coffin birth --TammyMoet (talk) 10:49, 23 July 2018 (UTC)
- If an expectant mother is killed in an accident medical staff are often able to save the unborn child. 86.133.26.146 (talk) 10:56, 23 July 2018 (UTC)
- The mother doesn't even need to be alive... coffin birth --TammyMoet (talk) 10:49, 23 July 2018 (UTC)
- The uterus is made of smooth muscle which can contract independently of any voluntary control, and it doesn't even need an intact nervous system in order to do so. Therefore, contractions can continue while someone is unconscious, and sometimes this (rarely) has led to vaginal delivery while unconscious. Usually medical/nursing staff wouldn't let this happen, preferring the more controlled caesarian. Klbrain (talk) 23:23, 22 July 2018 (UTC)
July 22
Light on the Explorer 1 rocket
On the rocket that launched Explorer 1 you can see a light on the rocket just before it turns from the cylindrical part to the conical part. What is the reason for this light? Bubba73 You talkin' to me? 02:01, 22 July 2018 (UTC)
- WAG tracking the spin rate without telemetry. Also presumably a rocket needs nav lights.Greglocock (talk) 07:43, 22 July 2018 (UTC)
- A spacecraft may have navigation lights, but I doubt if they'd be required or useful on ascent stages, which are kinda obvious when they're burning and aren't usually around for very long afterwards. That said, Explorer 1's fourth stage remained attached to the payload, but who would have been able to see a navigation light on it? {The poster formerly known as 87.81.230.195} 2.219.34.253 (talk) 08:34, 22 July 2018 (UTC)
- It may be so they could see spin or something, which may be why it was launched at night (another WAG). The light is near the top of the first stage. Bubba73 You talkin' to me? 18:59, 22 July 2018 (UTC)
- By 'need' I meant legally obliged, not that they were necessary for function. Greglocock (talk) 20:01, 22 July 2018 (UTC)
July 23
How much water is needed to block various species from reaching an island they would've thrived on if there was a landbridge?
Thus if you find them on the isle they were either introduced or came when there was less water.
How much is needed to allow an average population of at least 0.0000001 but much less than if there was a landbridge? (i.e. pedigree collapse or they can't find each other from too low of a mobility to population density ratio)
This is often prevailing wind and/or current dependent right? Wind and current going towards the island would lengthen this distance. Sagittarian Milky Way (talk) 21:05, 23 July 2018 (UTC)
- Some birds can cover 1000's of km of ocean without landing. But there are other birds that don't like to go more than 10m from tree to tree. Over time humans have developed means to colonise land further away, so I suspect that now 20000 km of sea would not stop a human colonisation. But 100,000 km may be too much! Graeme Bartlett (talk) 00:07, 24 July 2018 (UTC)
- This is a topic with connections to why Australia has marsupials (kangaroos, koalas, etc) and most of the rest of the world has placental mammals, and there is very little overlap. The standard explanation is the existence of the Wallace Line between Bali and Lombok in Indonesia. It's currently 35 kilometres (22 miles) wide and very deep, but would have been narrower during various ice ages. It has existed for a very long time. The Wallace Line article addresses the question fairly directly, stating "many birds do not cross even the shortest stretches of open ocean water". HiLo48 (talk) 00:19, 24 July 2018 (UTC)
- Aren't birds and especially flying insects sometimes blown where they don't want to go by storms? Also I've heard that in Polynesia land birds aren't normally found more than 20 miles from land, or out of sight or something like that. Sagittarian Milky Way (talk) 02:00, 24 July 2018 (UTC)
- This is a topic with connections to why Australia has marsupials (kangaroos, koalas, etc) and most of the rest of the world has placental mammals, and there is very little overlap. The standard explanation is the existence of the Wallace Line between Bali and Lombok in Indonesia. It's currently 35 kilometres (22 miles) wide and very deep, but would have been narrower during various ice ages. It has existed for a very long time. The Wallace Line article addresses the question fairly directly, stating "many birds do not cross even the shortest stretches of open ocean water". HiLo48 (talk) 00:19, 24 July 2018 (UTC)
- It would be difficult to give a meaningful figure, because in addition to Island hopping there is thought to be evidence that some terrestrial species have (inadvertantly) spread from one landmass to another by rafting on floating conglomerations of vegetation – even trans-Atlantic dispersal by this mechanism is considered a likely explanation for the spread of some genera. Because such events will have been rare, and successful only by chance, it's difficult to put numerical constraints on the limits to their possible success. {The poster formerly known as 87.81.230.195} 2.219.34.253 (talk) 05:09, 24 July 2018 (UTC)
- What about big animals like deer, elephants and bear? Wouldn't they not want to get on cause there's not enough food and freshwater and it might not be able to support their weight? And there must be other animals that wouldn't have their range extended by vegetation rafts, i.e. perigrine falcons maybe? Would they have an interest in making a long voyage on a raft where they can't hunt by slamming animals into the ground? Sagittarian Milky Way (talk) 19:08, 24 July 2018 (UTC)
- Peregrine falcons can be blown off course and like any other bird - there are several records of them on Tenerife [21] for instance as vagrants. Mikenorton (talk) 20:16, 24 July 2018 (UTC)
- What about big animals like deer, elephants and bear? Wouldn't they not want to get on cause there's not enough food and freshwater and it might not be able to support their weight? And there must be other animals that wouldn't have their range extended by vegetation rafts, i.e. perigrine falcons maybe? Would they have an interest in making a long voyage on a raft where they can't hunt by slamming animals into the ground? Sagittarian Milky Way (talk) 19:08, 24 July 2018 (UTC)
- SMW, you are attributing deliberate forward planning to non-sapient creatures, in a scenario where even H. sapiens would not be able to forecast an outcome. Animal dispersion by rafting is purely accidental, with animals inadvertently stranded on such rafts (which can be quite large) very occasionally being lucky enough to survive long enough to come within reach of land again – only one "success" in a million years might be enough to trans-oceanically disperse a given species.
- Keep in mind that many large animals can swim surprisingly long distances if they choose, or are forced, to: Elephants have been seen swimming in the Indian ocean miles from land (see also Elephantidae#Evolutionary history); Polar bears routinely swim tens of miles, (and other bears can probably swim quite well); while Scandinavian Elk (aka Moose) are now known to dive several meters in order to feed on lake-bottom vegetation and coastal seaweed. Even sloths have been observed swimming! {The poster formerly known as 87.81.239.195} 90.218.111.216 (talk) 09:54, 25 July 2018 (UTC)
July 24
Removing water to connect all current land...
How much would the sea level have to drop to have all *current* above the water land to be connected by land? And what would be the last piece of current land to be connected?Naraht (talk) 15:14, 24 July 2018 (UTC)
- Does that include middle-of-the-ocean features such as Hawaii? ←Baseball Bugs What's up, Doc? carrots→ 15:31, 24 July 2018 (UTC)
- Yes. And Pitcairn, Bermuda, Kerguelen, etc....Naraht (talk) 15:33, 24 July 2018 (UTC)
- To connect Mauna Kea to mainland, you would have to drain several miles of water. ←Baseball Bugs What's up, Doc? carrots→ 15:47, 24 July 2018 (UTC)
- Any idea how to get more accurate information? (A decent map of depths of the Pacific would probably help, but I haven't found a great one) For Hawaii, it is entirely possible that the land bridge that gets revealed connects Mauna Kea to Kamchatka along the Hawaiian–Emperor seamount chain, but I'm not sure on the depths of some of the gaps in the chain?Naraht (talk) 18:02, 24 July 2018 (UTC)
- In Google Images, there are various topographic maps of the ocean floor. This NG item[22] allows you to look at portions of it. The Hawaiian Ridge is a series of volcanoes which go way down deep, as are many of the other Pacific islands. ←Baseball Bugs What's up, Doc? carrots→ 18:33, 24 July 2018 (UTC)
- Agreed, but the question is whether there are gaps in the Hawaiian-Emperor that go all the way down to the general seafloor or whether it stays significantly above that level as is true between Hawaii and Oahu.Naraht (talk) 19:46, 24 July 2018 (UTC)
- You can download a detailed (30 arc second) grid of global bathymetry from GEBCO here. With the appropriate software you could mess about with a colour bar until you found what you were looking for. Mikenorton (talk) 19:57, 24 July 2018 (UTC)
- Agreed, but the question is whether there are gaps in the Hawaiian-Emperor that go all the way down to the general seafloor or whether it stays significantly above that level as is true between Hawaii and Oahu.Naraht (talk) 19:46, 24 July 2018 (UTC)
- In Google Images, there are various topographic maps of the ocean floor. This NG item[22] allows you to look at portions of it. The Hawaiian Ridge is a series of volcanoes which go way down deep, as are many of the other Pacific islands. ←Baseball Bugs What's up, Doc? carrots→ 18:33, 24 July 2018 (UTC)
- Any idea how to get more accurate information? (A decent map of depths of the Pacific would probably help, but I haven't found a great one) For Hawaii, it is entirely possible that the land bridge that gets revealed connects Mauna Kea to Kamchatka along the Hawaiian–Emperor seamount chain, but I'm not sure on the depths of some of the gaps in the chain?Naraht (talk) 18:02, 24 July 2018 (UTC)
- To connect Mauna Kea to mainland, you would have to drain several miles of water. ←Baseball Bugs What's up, Doc? carrots→ 15:47, 24 July 2018 (UTC)
- Yes. And Pitcairn, Bermuda, Kerguelen, etc....Naraht (talk) 15:33, 24 July 2018 (UTC)
In case you didn't know: Puerto Rico is surrounded by water. 2600:8806:4802:C700:19EF:9053:95DC:1C0A (talk) 21:05, 24 July 2018 (UTC)
- Thanks, Donald. ←Baseball Bugs What's up, Doc? carrots→ 21:15, 24 July 2018 (UTC)
A related question [23].--Wikimedes (talk) 05:48, 25 July 2018 (UTC)
How do weeds manage to grow without a drop of water in the soil?
Not a drop of rain in two months, and yet I have to remove weed in the garden. I need to water the plants to prevent them from drying out in these extremely dry conditions, yet the weeds germinate and grow. How do these plants get enough water? Count Iblis (talk) 15:48, 24 July 2018 (UTC)
- It's at least partly a circular problem: plants are called weeds because they grow where they're not supposed to. Plants with higher tolerance for dehydration would have an advantage filling that niche, so it makes sense that many weeds would survive/thrive while other plants dried out and died - if they didn't, they wouldn't out-compete your tomatoes and dahlias. So what makes them dehydration tolerant? Well, there are many adaptations that will play a part (pore placement and density, gross morphology, waxy coatings, the use of taproots, and so on. Weeds rarely spend a lot of energy on fleshy fruit or showy blooms (though there are some exceptions), and that also reduces their need. Matt Deres (talk) 16:21, 24 July 2018 (UTC)
- Are you sure they're not coming up from the roots of weeds you've previously tried to remove? Anyway I've heard weed is associated with Satanism so it must be able to cope well with the heat ;-) Dmcq (talk) 16:24, 24 July 2018 (UTC)
- There are indeed plants with deeper roots, but I'm puzzled about new weeds that germinate and have tiny roots when I pull them out. Somehow these tiny roots were able to extract water from the bone dry soil. So, it must be what Matt Deres says about losing less water than other plants, but there must also be mechanisms that allow water to be extracted from the top layers of the soil. Perhaps some of the water at greater depths in the soil evaporates and at night when the top layers of the soil cool down, the water vapor makes it there via pores and condenses there? Count Iblis (talk) 17:17, 24 July 2018 (UTC)
- I suppose some weeds are better at conserving water but I think most just are far better at extracting the water and leaving the soil too dry for other plants - it is a major way they outcompete other plants I believe. Dmcq (talk) 17:50, 24 July 2018 (UTC)
- If actual data doesn't match your assumption, it is quite likely your assumption is wrong. You have assumed the soil has zero water. Plants are growing in it. Therefore, your assumption is wrong. To have assumptions impervious to contrary evidence is a problem... --Jayron32 18:02, 24 July 2018 (UTC)
- One way to get water in the top of the soil is via dew or frost. Before sunrise the soil surface may be moist, but when you look in the afternoon all that moisture may have evaporated. Graeme Bartlett (talk) 03:11, 25 July 2018 (UTC)
- There are indeed plants with deeper roots, but I'm puzzled about new weeds that germinate and have tiny roots when I pull them out. Somehow these tiny roots were able to extract water from the bone dry soil. So, it must be what Matt Deres says about losing less water than other plants, but there must also be mechanisms that allow water to be extracted from the top layers of the soil. Perhaps some of the water at greater depths in the soil evaporates and at night when the top layers of the soil cool down, the water vapor makes it there via pores and condenses there? Count Iblis (talk) 17:17, 24 July 2018 (UTC)
Deploying Compost in Extreme Heat.
I know that in the UAE and Saudi Arabia when farmers plant they have little water retention in sandy soils. Why cant they just compost all the organics from the big cities or ship in organics from other places for composting and plant in that. Is there something specific that happens to high organics soils(IE. Compost) when it is exposed to dry heat? Is this sustainable. Looking for someone to prove sustainability or not. If you have questions on more info Please Ask. — Preceding unsigned comment added by Mason201 (talk • contribs) 17:10, 24 July 2018 (UTC)
- Abstract:
- Water reuse in Tunisia: Stakes and prospects. In the arid and semi-arid region, countries like Tunisia are facing increasingly serious water shortage problems. According to forecasts, increased domestic and industrial water consumption by the year 2020 may cause a decrease in the volume of fresh water available for Tunisian agriculture. It is therefore important to develop additional water resources as well as protect the existing ones. One way to cope with these problems is to reuse wastewater in agriculture. Therefore and before launching the water reuse policy, a research program was undertaken...
- --Guy Macon (talk) 17:44, 24 July 2018 (UTC)
- Composting requires the presence of air. Water is needed in the right amounts to maintain activity without causing anaerobic conditions; the air/water balance is critical to maintaining high temperatures (135°-160° F / 50° - 70° C) until organic solid wastes decompose. Urine, itself useful as a nitrogen-rich fertilizer, is a suitable additive to a compost pile. DroneB (talk) 17:46, 24 July 2018 (UTC)
- In addition to that, an obvious question is, why compost in the desert anyway? I mean the idea of composting waste from their own cities may make some sense. But what's the purpose of shipping in organic waste from elsewhere? Maybe you've never composted but if you ever did you'd know that the volume of what you start with is a lot more than what you end up with. [24] So there are at least 2 and probably more (shipping organic waste around seems a good way to ensure lots of problems with pests etc) problems with shipping in the waste and composting it on site. If the idea made any sense, it would seem better to simply compost it somewhere else and ship in the compost. BTW perhaps Desert greening will be of some interest. You'd note that it doesn't really mention shipping in compost or soil at massive scale as part of the process. Nil Einne (talk) 23:05, 24 July 2018 (UTC)
- Composting requires the presence of air. Water is needed in the right amounts to maintain activity without causing anaerobic conditions; the air/water balance is critical to maintaining high temperatures (135°-160° F / 50° - 70° C) until organic solid wastes decompose. Urine, itself useful as a nitrogen-rich fertilizer, is a suitable additive to a compost pile. DroneB (talk) 17:46, 24 July 2018 (UTC)
Insect from eastern Quebec
Hello. Can you identify this little fellow who landed on my front door this morning (or last night..). I live in Rimouski suburb, Quebec Canada, in an open landscape of bungalows, many trees and several patches of mixed forest, a few hundred meters of St-Lawrence estuary. Body length : 1cm, wings span 2,5 cm. Thank you. Dhatier (talk) 17:45, 24 July 2018 (UTC)
- I'm pretty sure it's a type of paleoptera (i.e. mayfly, dragonfly, or damselfly), though a rather more ornate one than I have ever seen. Maybe that will lead you in the right direction, though there are thousands of different species. --Jayron32 18:12, 24 July 2018 (UTC)
- Looks like a rose plume moth Cnaemidophorus rhododactyla. Mikenorton (talk) 18:19, 24 July 2018 (UTC)
- Agreed. T shapes are usually some sort of plume moth (although our local ones are ghostly white). Andy Dingley (talk) 18:30, 24 July 2018 (UTC)
- Cnaemidophorus rhododactyla confirmed by numerous images on Google. Thank you very much. Dhatier (talk) 18:45, 24 July 2018 (UTC)
- Agreed. T shapes are usually some sort of plume moth (although our local ones are ghostly white). Andy Dingley (talk) 18:30, 24 July 2018 (UTC)
July 25
Why can Labrador get so hot?
North West River
Northwest River | |
---|---|
Coordinates: 53°31′31.32″N 60°08′41.80″W / 53.5253667°N 60.1449444°W |
List of extreme temperatures in Canada. Also has exceeded the all-time highs of DC, Philly, Toronto, Ottawa, Windsor, Detroit, O'Hare, Indianapolis and Columbus and only 0.9F less than Ontario (108F). Sagittarian Milky Way (talk) 22:48, 25 July 2018 (UTC)
- Not a complete answer, but there were heat records in many parts of the world this year, with a crisis in Japan at the moment. Co2 levels also fluctuated less, remaining high (with average level higher every year). Extreme weather events are predicted to rise as global warming pursues. Forest fires are regular in many areas and increasing, dumping more Co2 and the warming of permafrost is a concern as more methane is not converted before reaching the surface (with a temporary effect higher than that of Co2). There are fears about reaching tipping points and it's very difficult to determine when one will be attained; runaway changes are considered possible when one or more such tipping points are reached. About Labrador this year specifically, I'll let others expand (obviously, specific events cannot directly be linked to global trends). —PaleoNeonate – 23:28, 25 July 2018 (UTC)
- The highest known temperature east of Ontario and New York was not only so far north but also outside the modern warming era or the Dust Bowl which makes it even more unusual. Sagittarian Milky Way (talk) 00:40, 26 July 2018 (UTC)
Not sure why this doesn't break the Second Law of Thermodynamics
I'll assume it doesn't, but I can't see why. Advice welcome, I've been scratching my head for a decade.
Imagine the Earth were so far from the Sun, that there was no solar heating, and it had no internal radioactive decay ; would its atmosphere ( probably needing to be only Helium, to be a gas at 6 Kelvin ) be the same temperature on the surface, as at say 10 kilometres altitude ? If so, how would a molecule of air moving vertically, in the Earth's gravitational field, keep the same kinetic energy ( and hence velocity and hence temperature ), as it gained or lost the gravitational potential energy, of that 10 km of height ? Air molecules may well interact, sharing and equalising their kinetic energy ; but over any finite change of height, there must be an equal and opposite change of kinetic energy. If this were not true, a molecule of air which was moving upwards, would continue at the same speed, indefinitely, until it escaped to space ; and that would seem to break the even-more unbreakable First Law.
If the gas particles do exhibit "ballistic" behaviour ( like mortar shells ), and this maintains a permanent temperature gradient with height, which could be used to drive a heat engine ; a planet with such an atmosphere, could continuously generate mechanical power, as it absorbed heat energy from the 6 Kelvin afterglow of the Big Bang.
The continuous absorption of heat to generate power, would seem to break the Second Law.
Thanks. GeoffAvogadro (talk) 23:21, 25 July 2018 (UTC)
- I think you're getting lost in complexities, but the clean and simple answer is that air temperature decreases with height: this is called the adiabatic lapse rate. The physical reason for this is that at lower altitudes, there is more gravitational potential energy; at higher altitudes, individual molecules have expended kinetic energy to work against gravity.
- There are many confounding extra details that make atmospheric science so much fun; but at the basic level, there absolutely is a statistical reduction in kinetic energy for air molecules as their altitude increases.
- Above a certain height, the sparsity of the gas molecules becomes very low, and some different properties of thermal and chemical physics begin to dominate: this region is called the ionosphere (and/or the thermosphere, or magnetosphere, depending on which classification scheme you're using; these terms are sometimes used interchangeably, but they actually specify sub-regions that describe the details of the molecules and ions at specific altitudes and atmospheric conditions).
- Nimur (talk) 23:34, 25 July 2018 (UTC)
- The answer is that in that scenario the entire atmosphere would be in thermal equilibrium with the cosmic background radiation, at a temperature of 2.8 K. But basically there wouldn't be any atmosphere -- even helium is frozen solid at that temperature. You would only have a few stray molecules that randomly escape from the surface, hardly denser than outer space. Looie496 (talk) 02:45, 26 July 2018 (UTC)