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:::That's actually quite relevant to the question, as [[Wales]] and [[Scotland]], being mountainous areas and bordering a large expanse of water, suffer much higher rainfall and lower temperatures than [[London]] does. London is in the [[East Anglian]] [[rain shadow]], and has a climate more comparable to [[Brussels]] or [[Paris]] than to [[Cardiff]] or [[Edinburgh]]. OR it's a good layer of clothing warmer than Wales or Scotland. --[[User:TammyMoet|TammyMoet]] ([[User talk:TammyMoet|talk]]) 15:17, 15 October 2009 (UTC) |
:::That's actually quite relevant to the question, as [[Wales]] and [[Scotland]], being mountainous areas and bordering a large expanse of water, suffer much higher rainfall and lower temperatures than [[London]] does. London is in the [[East Anglian]] [[rain shadow]], and has a climate more comparable to [[Brussels]] or [[Paris]] than to [[Cardiff]] or [[Edinburgh]]. OR it's a good layer of clothing warmer than Wales or Scotland. --[[User:TammyMoet|TammyMoet]] ([[User talk:TammyMoet|talk]]) 15:17, 15 October 2009 (UTC) |
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= October 15 = |
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== Higgs Boson sabotages Large Hadron Collider. == |
== Higgs Boson sabotages Large Hadron Collider. == |
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Revision as of 20:16, 15 October 2009
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October 9
Convert atmospheric greenhouse gases to flood insurance rates
I'd like to see a series of graphs, or maybe I want an applet that can produce them, for describing what changes like "20% less greenhouse gases by 2020" would have on actual flood insurance rates. Where does one start for that sort of thing? 99.62.187.28 (talk) 04:59, 9 October 2009 (UTC)
- I don't think that there is no such document. A 20% reduction in greenhouse gases by 2020 is practically impossible. A 20% reduction in new emissions by 2020 is possible, but will still leave us heading to increased climate change, and the effect in 2020 will be marginal. There are a couple of studies on the effect of climate change on insurers, e.g. by the Association of British insurers[1] and by the US GAO[2]. Your question is vey underconstrained (What market? What time? How are the 20% achieved and what is the state of the economy?). But even with a more specific question, I doubt we have reliable prognoses. You can expect rates to develop to match damages (or a bit more, because the insurers need to pay the increased uncertainty), but our estimate of damages has a large uncertainty (that does not even primarily depend on climate). --Stephan Schulz (talk) 07:56, 9 October 2009 (UTC)
- I doubt that even the insurance companies can make that call yet. The problem is that flood insurance rates are not only determined by the number of people who get flooded - they also depend on the number of people who are NOT flooded who decided to buy insurance and pay premiums. So for example, if the news coverage in 2020 were full of "OMFG!!!! Look at teh stooopid peoplez gettin flooded out (lol!) without insurans!" (because that's how the news will read in 2020). If that kind of publicity caused people who live on higher ground to take out insurance in disproportionately large numbers - then it's possible for the ratio of people who are NOT flooded out to those who are could actually increase - and thereby drive the insurance costs down...not up! It's very likely that the law could change in order to help out the insurance companies by requiring flood insurance on all homes (just as we require 3rd party insurance for cars) - or that banks might require it as a condition of getting a mortgage. We don't know (and cannot reasonably guess) what might happen in that regard. However, we might be able to find the number of houses in zones that would be flooded if CO2 levels don't start to level out soon. We could then (presumably) estimate the value of those homes and make some kind of a guess about the total cost of replacing them. SteveBaker (talk) 13:25, 9 October 2009 (UTC)
- The other thing is that insurance companies don't ensure for certain losses. If you live next to a river that floods every few years - you won't be able to buy flood insurance at any price. As the insurers determine that sea levels are rising - they'll simply cease to offer flood insurance in areas that are 100% certain to be flooded every few years and take every opportunity to cancel existing policies in those regions. They'll make their money on the boundaries of those "now certain-to-flood" areas where houses that were not even at risk of floods before suddenly find themselves in the new 100 year flood-plain. This might also enable the insurers to keep rates stable, no matter the amount of sea level rise. SteveBaker (talk) 13:57, 9 October 2009 (UTC)
- It would probably be pretty straightforward to do a back-of-the-envelope calculation of temperature-sea level (though there is a significant lag in the warming of the oceans), some related info and references are found on the Current sea level rise page here. Carbon dioxide to temperature to sea level would be less straightforward due to the overprinting of natural variability. For inland areas (rivers and streams), I'd say forget it: there are so many factors that go into weather (as opposed to climate), and drainage-basin-scale weather patterns are what really control flooding in streams, that I would say that the natural variability there will outweigh any predictability of change in the hydrologic cycle over a decadal time-scale. Awickert (talk) 14:12, 9 October 2009 (UTC)
- Last week, I attended a lecture by a geophysicist from the US Geological Survey, Ross Stein whose project was to develop a comprehensive risk-assessment profile based on geophysical data about earthquakes. The challenges of accumulating some very heavy scientific data and putting it into a form that insurance and reinsurance conglomerates can understand are huge. The result is a GEM, "a public/private partnership initiated and approved by the Global Science Forum of the Organisation for Economic Co-operation and Development (OECD-GSF). GEM aims to be the uniform, independent standard to calculate and communicate earthquake risk worldwide." Their goal is to produce a free and open-source applet/web tool that will allow you to do exactly what you want - estimate the likelihood of catastrophic damage (from earthquakes), as measured in a variety of different paradigms (dollars, casualty rates, seismic magnitude, etc).
- Global warming and global sea-change risk falls under the same category - it has huge socioeconomic impact; governments, insurance companies, businesses, and private citizens all have a need to assess the risk; and it is also very hard to quantify the global risk as it relates to a specific region. At the same time, no local region has the resources to coordinate the statistical analysis for these sorts of global-scale data analysis. You might be interested in checking out the GEM project website - to see how one gets started accumulating this scale of information. The seed idea is to address a common need, and the execution of the idea is to interact with the large international organizations (such as the UN, several large insurance conglomerates, and government agencies like the USGS), to coordinate a strategy for real, science-based risk assessment. To my knowledge, no such initiative yet exists for global-climate-change/sea-level-change risk assessment - maybe the OP would like to suggest this angle to the GEM project. Nimur (talk) 14:57, 9 October 2009 (UTC)
"TAIPEI (AFP) – Global warming will cause the amount of heavy rain dumped on Taiwan to triple over the next 20 years, facing the government with the urgent need to beef up flood defences, a scientist warned Tuesday. The projection is based on data showing the incidence of heavy rain has doubled in the past 45 years, coinciding with a global rise in temperatures, said Liu Shaw-chen of Taiwan's leading research institute Academia Sinica. The estimate comes two months after Taiwan was lashed by Typhoon Morakot, the worst to hit the island in half a century, leaving more than 600 deaths in its wake...." -- http://news.yahoo.com/s/afp/taiwanclimatewarmingtyphoon 98.210.193.221 (talk) 18:11, 16 October 2009 (UTC)
Why preheat the oven?
I don't often use an oven for cooking, but whenever I do, the recipe invariably tells me to preheat it. Why? Surely the sooner the food goes in, the sooner it will be ready to come out. My guess is that we would save a lot of energy if people weren't preheating empty ovens. If preheating is important, maybe the oven article should make some mention of it...--Shantavira|feed me 08:03, 9 October 2009 (UTC)
- Just as a guess: the reason is to keep the energy transfer predictable. Different ovens heat at different rates, and so an oven that heats instantly from 70 degrees to 400 degrees would cook food differently than one that went from 70 to 400 over a period of an hour if you put it in before you started heating the oven. Veinor (talk to me) 08:08, 9 October 2009 (UTC)
- Yes, I also think that's why it's done. Cookbook authors don't want to have to mess around with telling you how to adapt the cook time based on how quickly various ovens heat up. It's easier when creating a recipe to just do a preheat, so the cook time will be the same in all ovens. Red Act (talk) 08:21, 9 October 2009 (UTC)
- While this cookbook author explanation is plausible, also note that cooking is a chemical process. Heating a mix of ingredients during some time at some (more or less) fixed temperature produces a result that might otherwise be impossible to produce by gradually heating, even if the same overall amount of energy is used. You probably also don't want your steak first soaked in cold oil and then gradually having it heated... - DVdm (talk) 10:36, 9 October 2009 (UTC)
- I'd agree with that, if you start cooking meat at too low a temperature, it will boil in its own juices rather than frying. Also your food isn't going to be that cooked by the time your oven comes up to temperature so preheating isn't going to use that much more energy. Smartse (talk) 11:18, 9 October 2009 (UTC)
- The times wouldn't even be constant for a given oven because you might want to first cook one thing - then cook something else, with the oven already hot. You'd never get consistent results. It's also possible that the cooking process might involve multiple chemical reactions that each happen at different temperatures - so by not pre-heating to the temperature where all of the reactions happen at once you might have undesirable results as one reaction starts before the others and last for a longer time. SteveBaker (talk) 12:38, 9 October 2009 (UTC)
- And come to think about it - the energy savings by not pre-heating might not be that great. Assuming your oven is reasonably well insulated (which they seem to be) - most of the cost is in heating the thing up from cold. Once it's already hot, the heating elements only have to provide enough energy to overcome the losses due to inadequate insulation. If you're really bothered about this - your best strategy is probably to pre-heat per instructions - but shut off the heat a little before the cooking time is over, relying on the insulation to keep the oven hot enough for cooking to continue to completion. SteveBaker (talk) 12:42, 9 October 2009 (UTC)
- Some recipes call for pre-heating the oven, some do not. Often these recipes were written decades ago. It's not about energy savings, it's about what trial-and-error has determined to be the best way to cook something. →Baseball Bugs What's up, Doc? carrots 12:51, 9 October 2009 (UTC)
- And come to think about it - the energy savings by not pre-heating might not be that great. Assuming your oven is reasonably well insulated (which they seem to be) - most of the cost is in heating the thing up from cold. Once it's already hot, the heating elements only have to provide enough energy to overcome the losses due to inadequate insulation. If you're really bothered about this - your best strategy is probably to pre-heat per instructions - but shut off the heat a little before the cooking time is over, relying on the insulation to keep the oven hot enough for cooking to continue to completion. SteveBaker (talk) 12:42, 9 October 2009 (UTC)
- Indeed, and sometimes very odd or pointless sounding things have a huge affect on the overall food chemistry. Most bread recipes call for your to spray water in the oven first, something my wife skipped for a long time because she thought the effect would be minimal. It turns out that it really affects the quality of the crust to have that extra humidity in there. --Mr.98 (talk) 12:58, 9 October 2009 (UTC)
- The predictability thing is certainly the main reason (same reason recipes call for unsalted butter and a certain amount of salt -- they don't know how salty your butter is). Another possible reason is safety: the "danger zone" for food spoilage is 40-140 degrees F, and putting the food in a hot oven will minimize the time it spends in that zone. --Sean 13:35, 9 October 2009 (UTC)
- Analogous to this is that when cooking something on the stove, sometimes you heat it to a boil first before adding other stuff, other times you bring the whole thing slowly to a boil. →Baseball Bugs What's up, Doc? carrots 13:50, 9 October 2009 (UTC)
- If you are concerned about saving energy, I always put things in the oven before it preheats, and my baked goods turn out fine (so long as I keep an eye on them). The stovetop not so much - noodles, for example, will waterlog if you put them into the water too early, so I generally boil first (unless I'm in a hurry and don't care about the consistency). Awickert (talk) 14:02, 9 October 2009 (UTC)
- Analogous to this is that when cooking something on the stove, sometimes you heat it to a boil first before adding other stuff, other times you bring the whole thing slowly to a boil. →Baseball Bugs What's up, Doc? carrots 13:50, 9 October 2009 (UTC)
When I worked as the oven man in a bakery the oven cycle was so fast that pre-heating became difficult, and I actually found that the ambient air temperature had to be taken into account regarding the cooking time to get reliable results. Pre-heating avoids the need for such calculations.Trevor Loughlin (talk) 14:21, 9 October 2009 (UTC)
- An oven thermometer or judicious use of the temperature control, or listening for a click when the setpoint is reached, can tell you how fast a given oven heats up. Some dishes are more demanding of a certain high temperature than others. I would expect that cakes and breads are more demanding, or that initial lower temperature will have more of an effect. My oven takes about 6 minutes to get to 400 F. Putting a frozen pizza or some such in before the setpoint is reached saves a couple of minutes compared to waiting for the setpoint to be reached, and if you need to eat and run it makes some sense. Certainly the minutes at 300 degrees will not contribute as much to the browning as the minutes at 400, but a minute at 300 F does contribute somewhat. The total time in the oven needs to be increased because of the lower than desired initial temperature, but the food gets to the table faster than if I wait for the oven to completely preheat. If the box says "12 to 15 minutes" I basically use the longer extreme and put the food in at 300 F. It should save energy, because the (gas) oven is not a sealed insulated container. There is a vent which has hot air escaping, and makeup air enters at the bottom. The oven cycles on and off during the baking cycle. For bread, I would wait for the desired temperature. For a roast or a chicken, I will wind up judging doneness by a meat thermometer, so I put it in when I turn the oven on. Its going to be a very long time anyway, and that gets dinner on the table sooner. Edison (talk) 15:39, 9 October 2009 (UTC)
- Yoicks! The reason for preheating the oven is that the results often suck if you don't. Lots of baked things require the outer surface to be heated a lot more than the inside in order to come out right, and that won't happen properly if the oven isn't preheated. For some things, such as a baked potato wrapped in foil, it doesn't matter, but if you try to bake bread in a non-preheated oven, the results will be pathetic. Looie496 (talk) 17:29, 9 October 2009 (UTC)
I never ever pre-heat the oven. It's a waste of natural gas. Vranak (talk) 20:10, 9 October 2009 (UTC)
In addition to the culinary points made above, the oven itself may behave differently during preheating: for example, both the top and bottom elements may come on until the temperature difference from the set-point is small. If what you're cooking is only supposed to be heated from below, you don't want that. --Anonymous, 04:47 UTC, 2009-10-10.
- This is why I preheat my toaster oven (Doubtless wasting untold electrical energy.), because if I don't it completely fails to cook anything evenly. (Whether it's bagels or instant pizzas.) 15:04, 10 October 2009 (UTC)
Wow, no one has actually given the main point yet. When active, the burners in an oven are locally much hotter than set point of the oven. As a result, they generate a lot of excess infrared radiation. This radiation will tend to char the outside surface of your food. For some foods this is fine, for others it will significantly impacts the taste and quality of the food. Cooking with infrared radiation is called broiling, and is often preferred for meats, but it is distinct from baking where the goal is to cook with hot air. By preheating the oven you create the pocket of hot air desired for baking and then the burners turn themselves down/off. By not placing food in the oven until after the oven's burners are reduced you minimize the food's exposure to the excess infrared radiation that could char your food. (In some situations you can also do this by covering the food with aluminum foil from all sides.) Preheating really is about controlling the way in which your food is cooked. Dragons flight (talk) 23:44, 10 October 2009 (UTC)
- That makes sense about the evenness-unevenness, but (pardon my ignorance, as an excuse I work entirely in the solid or liquid state) I would assume that the air also heats food by giving off IR radiation, albeit evenly. Is this correct? Or is it more of a molecular collision type heat transfer deal? Awickert (talk) 08:37, 11 October 2009 (UTC)
- At typical baking temperatures, e.g. 350F, the primary mode of heat transfer is still conduction by air molecules colliding with the food. Dragons flight (talk) 19:41, 11 October 2009 (UTC)
Design with dimensions
I want to know where I can find the exact design of any engine(especially ic engines) with dimensions and specifications. I want any engine to be part of my mini project which I will doing with AutoCAD.To do my project i.e the ddrawing I need to know the exact dimensions of the valves and other components.Please help! —Preceding unsigned comment added by 122.169.170.8 (talk) 11:37, 9 October 2009 (UTC)
- I was going to try and help you by measuring the pieces (to the right), but I can't get the engine to stop moving. User Grbrumder (talk) 00:19, 10 October 2009 (UTC)
- Not sure this is what you meant, but at least in Firefox, pressing the Esc key will stop the animation.–RHolton≡– 22:26, 13 October 2009 (UTC)
- Esc also stops the animation in Vista Explorer. You have to reload the page to get it moving again. You can look at the individual frames of the animation in a suitable image editor such as GIMP which is free software. Cuddlyable3 (talk) 12:35, 15 October 2009 (UTC)
- Not sure this is what you meant, but at least in Firefox, pressing the Esc key will stop the animation.–RHolton≡– 22:26, 13 October 2009 (UTC)
- Unfortunately, even a single cylinder motorcycle engine, like the one shown here: [3], is of such complexity that you couldn't possibly show all the dimensions on a single diagram (of reasonable size), and still have them be readable. StuRat (talk) 18:35, 13 October 2009 (UTC)
- I want atleast the basic dimensions like the diameter of the piston head and radius of crankshaft...the stiffness of the spring in the valve and the materials used in the construction of engine.
Shouldn't the list of artificial objects on the moon be edited?
LCROSS's Centaur upper stage is up there now. —Preceding unsigned comment added by Dakiwiboid (talk • contribs) 12:43, 9 October 2009 (UTC)
- So what's stopping you? →Baseball Bugs What's up, Doc? carrots 12:50, 9 October 2009 (UTC)
- Indeed "Wikipedia - the free encyclopedia that anyone can edit.". Given the speed it whacked into that crater, there may not actually be much of it left on the moon! However, I agree that it belongs on that list. SteveBaker (talk) 13:11, 9 October 2009 (UTC)
- It wouldn't be the first lunar object that was intentionally augered in. In fact, all of the ejected LM's would have crashed. "Rest In Pieces". →Baseball Bugs What's up, Doc? carrots 13:19, 9 October 2009 (UTC)
- Indeed "Wikipedia - the free encyclopedia that anyone can edit.". Given the speed it whacked into that crater, there may not actually be much of it left on the moon! However, I agree that it belongs on that list. SteveBaker (talk) 13:11, 9 October 2009 (UTC)
- WP:BOLD Ks0stm (T•C•G) 15:04, 9 October 2009 (UTC)
LCROSS moon impact
It has been over 6 hours since the impacts. Earlier, it was predicted that 10 inch telescopes or larger in the Western US should see a plume. Apparently the scientific "shepherding" LCROSS craft following the initial impactor saw no plume. Did Hubbell or any observatory see anything? When is NASA expected to release initial analysis of the instrumentation findings from LCROSS? It seems like a replay of the Ranger 7 lunar impact spacecraft from 1964, except that the older mission beamed back clearer pictures. Edison (talk) 17:50, 9 October 2009 (UTC)
- I know this is the Internet age and all, but I'd relax and wait a few days. From the CNN article: "NASA said Friday's rocket and satellite strike on the moon was a success, kicking up enough dust for scientists to determine whether or not there is water on the moon." Comet Tuttle (talk) 18:04, 9 October 2009 (UTC)
- "I Aim at the Stars... but sometimes I hit the moon."--Mr.98 (talk) 20:36, 9 October 2009 (UTC)
- The plume (which, incidentally was expected to be made up of about 350 tons of moon-rock!) was supposed to be clearly visible on amateur telescopes down to maybe 10" - so it ought to have been pretty big. If there was anything to be seen, it should have been seen from earth. But the idea of the LCROSS widget was that it would fly through the plume - getting a direct sampling of it...shortly before crashing itself and kicking up another 150 tons of moon. I heard speculation this morning that the crater might actually be a LOT deeper than was originally thought. These tests are really amongst the most important ever done beyond the earth's orbit - the answer to the question of whether there is water on the moon in readily 'gettable' quantities should be molding mankind's entire manned spaceflight future. It's doubly important that it be found in the moons polar regions where 24 hour per day sunlight would be available for solar panels to turn it into breathable oxygen and hydrogen+oxygen for rocket fuel. It is literally the case that if we find water there - we go back to the moon next - and if not we abandon it as a largely uninteresting desert and head off to Mars. SteveBaker (talk) 21:32, 9 October 2009 (UTC)
- Thanks Steve, where can I find a reference for that? User Grbrumder (talk) 00:23, 10 October 2009 (UTC)
- Our own article about LCROSS#Mission covers the territory pretty well and has lots of good references. SteveBaker (talk) 01:44, 10 October 2009 (UTC)
- 15.5 hours post-impact. Thud. Dead. No data.Edison (talk) 03:22, 10 October 2009 (UTC)
- There's a difference between 'no data because it didn't work' and 'no data released to the public yet because they haven't been fully analysed and only twenty people on the planet would have any use for the raw numbers.' It took 15 years for the meat of the Ardipithecus studies to be published; I doubt if NASA will take quite that long to fulfil its legal obligation of publishing the LCROSS results. In the meantime, try to cultivate some zen-like patience :-) . 87.81.230.195 (talk) 07:40, 10 October 2009 (UTC)
- 15.5 hours post-impact. Thud. Dead. No data.Edison (talk) 03:22, 10 October 2009 (UTC)
- Our own article about LCROSS#Mission covers the territory pretty well and has lots of good references. SteveBaker (talk) 01:44, 10 October 2009 (UTC)
- Thanks Steve, where can I find a reference for that? User Grbrumder (talk) 00:23, 10 October 2009 (UTC)
- The plume (which, incidentally was expected to be made up of about 350 tons of moon-rock!) was supposed to be clearly visible on amateur telescopes down to maybe 10" - so it ought to have been pretty big. If there was anything to be seen, it should have been seen from earth. But the idea of the LCROSS widget was that it would fly through the plume - getting a direct sampling of it...shortly before crashing itself and kicking up another 150 tons of moon. I heard speculation this morning that the crater might actually be a LOT deeper than was originally thought. These tests are really amongst the most important ever done beyond the earth's orbit - the answer to the question of whether there is water on the moon in readily 'gettable' quantities should be molding mankind's entire manned spaceflight future. It's doubly important that it be found in the moons polar regions where 24 hour per day sunlight would be available for solar panels to turn it into breathable oxygen and hydrogen+oxygen for rocket fuel. It is literally the case that if we find water there - we go back to the moon next - and if not we abandon it as a largely uninteresting desert and head off to Mars. SteveBaker (talk) 21:32, 9 October 2009 (UTC)
- I realised no one properly answered your question. Various sources have said about 2 weeks or more. E.g. [4] [5]. I agree with you that the visible results were fairly disappointing. And it does seem to me this was not just overenthusiastic media or people used to movie visual effects but NASA themselves. They seemed to be hyping the mission and the likely visuals. They seemed to be supporting LCROSS parties and didn't do anything to discredit the claim you'd likely see something with a good enough telescope. They realised the video showing the plume and didn't say anything about likely not actually seeing any plume. And it seems I'm not the [6] [7] [8] [9] [10]. I personally only watched NASA TV. There are some images now [11] which do show something, if they'd shown these around the time (perhaps a few minutes afterwards) I think people would have been more satisfied but that didn't happen. It seems the most 'exciting' thing at the time was the high-five incident. A lot of science is decidedly unimpressive and the media are guilty of overhyping a lot of stuff but in these cases it was the scientists or perhaps more accurately the PR people for the scientists who were a big part of the problem. (To use a different example with the LHC I did watch part of the launch briefly. There was little to see of course but that was what I was expecting.) Nil Einne (talk) 06:40, 11 October 2009 (UTC)
(outdent) From what I hear from the science folks, the lack of a highly visible plume may actually be a good thing: it may mean that the impactor hit in a deep patch of lunar regolith deep in the crater, giving probably the best set of spectra to answer the water question. I'm sure it will be a while before preliminary results are released: I can imagine that deconvolving complex spectra can be difficult especially if you want to be absolutely correct before releasing it to the news media. Awickert (talk) 08:41, 11 October 2009 (UTC)
- I'm also curious as to why the plume is less visible than anticipated. I suspect that this means that the plume did not leave the shadow in the crater and rise into the sunlight. This, in turn, could be caused by the impact being slower than anticipated or at a shallower angle. I assume that NASA is able to control the velocity fairly precisely. Perhaps there was a protrusion which it struck at a shallow angle (maybe the central cone which many meteor craters have ?). Something like this:
| | !/\ __________/ \___________
- So, does that crater have a central cone, and could the impact have happened there ? StuRat (talk) 17:48, 13 October 2009 (UTC)
are quantum effects the sole reason why heat capacity goes to zero at 0K?
I get the idea that the amount of possible microstates decreases as you go to 0K, which explains why heat capacity decreases, and that quantum effects simply enhance this. But my prof tells me quantum effects are the sole reason. If so, would the increase in microstates w/respect to temperature be responsible for the inflection point in the heat capacity versus temperature graph? John Riemann Soong (talk) 20:37, 9 October 2009 (UTC)
- I don't think the concept of counting microstates makes sense outside quantum mechanics -- a classical system does not have a finite number of states for a given energy. And what do you mean by inflection point here? Looie496 (talk) 21:42, 9 October 2009 (UTC)
- There's an inflection point (point at which the derivative is 0) at 0K in the heat capacity as a function of temperature. See the graph at Specific heat capacity#Solid phase. Red Act (talk) 22:26, 9 October 2009 (UTC)
- As a former calculus teacher I have to object that an inflection point is defined as a point where the second derivative changes sign, not a point where the derivative is zero. Basically "inflecting" means changing from upward curvature to downward curvature, or vice versa. You can't have an inflection point at the edge of a function's domain. Looie496 (talk) 03:38, 10 October 2009 (UTC)
- There's an inflection point (point at which the derivative is 0) at 0K in the heat capacity as a function of temperature. See the graph at Specific heat capacity#Solid phase. Red Act (talk) 22:26, 9 October 2009 (UTC)
- For the theory of the temperature dependence of heat capacity at low temperatures, see Debye model. Red Act (talk) 22:26, 9 October 2009 (UTC)
- I don't understand all the finer details of that article. I know that there is a quantum contribution to the reduction in heat capacity, but what about the microstate-macrostate-entropy contribution? And you can count microstates classically -- via probability and statistical mechanics. John Riemann Soong (talk) 22:45, 9 October 2009 (UTC)
- The quantum contribution is the microstate-macrostate entropy contribution. Assume that heat capacity is positive. Then as temperature decreases, so does internal energy. As internal energy decreases, the energy level spacings in a given quantum system will "look bigger". In the limit that internal energy goes to 0, the energy level spacings will look infinitely large, so there is only one "possible" microstate: every particle in its lowest possible energy level. Thus in the limit that internal energy (and likely temperature) goes to 0 in a quantum system, entropy should also go to 0. In a classical situation, this argument doesn't work because the possible energy levels are distributed in a continuum. Someone42 (talk) 11:28, 10 October 2009 (UTC)
- I don't understand all the finer details of that article. I know that there is a quantum contribution to the reduction in heat capacity, but what about the microstate-macrostate-entropy contribution? And you can count microstates classically -- via probability and statistical mechanics. John Riemann Soong (talk) 22:45, 9 October 2009 (UTC)
biosynthesis of creatine
The article creatine shows an R-NH3+ cation attacking an imine C=N center (that's the only way to form the new C-N bond).... but ammonium cation can't possibly have any lone pairs to donate. Am I missing something? John Riemann Soong (talk) 22:59, 9 October 2009 (UTC)
- It's biochemistry, so the answer is almost always "some enzyme":) The article says (and links to) Arginine:glycine amidinotransferase. There, you can see individual steps of the catalytic cycle, including the exact fate of one of the H on the R-NH3+. DMacks (talk) 07:15, 10 October 2009 (UTC)
October 10
Inbreeding
Is there anyway to prevent the negative effect of inbreeding in the South China Tiger? All captive South China Tiger today descend from 2 male and 4 female caught in the 1950s and 1970s. What if there weren't any wild ones left to breed with? Is there anyway for an inbred animal to continue on --Queen Elizabeth II's Little Spy (talk) 03:48, 10 October 2009 (UTC)
Lines exhibiting inbreeding depression can be weeded out via evolution. Genetic diversity will just have to start afresh. I think that the entire human race was once at a bottleneck population of 10 individuals, from what DNA evidence tells us. John Riemann Soong (talk) 04:47, 10 October 2009 (UTC)
- According to Population bottleneck#Humans, the human population dropped to a few thousand, it doesn't mention any bottleneck as extreme as 10 individuals (and excludes a bottleneck of a single breeding pair). --Tango (talk) 18:41, 10 October 2009 (UTC)
- That is a bit of a leap JRS. The whole present genepool may easily be entirely descended from 10 individuals without them being the only population at any instant. The population being at ten for humanity on the planet seems on balance less likely than that a particular group which only had ten members went on to being the only surviving population without interbreeding... --BozMo talk 10:34, 10 October 2009 (UTC)
- Closer to home, Cheetahs also have very low genetic diversity, again interpreted as indicating a past genetic bottleneck event. In the case of the South China tiger, it is likely the South China Tiger Project is following procedures previously applied in breeding other endangered species, whereby potential captive breeding pairs are carefully selected from the individuals available in zoos worldwide so as to maximise genetic mixing within the available gene pool (the article hints at this), and will presumably also release animals back into the wild in locations calculated to maximise the likelihood of similarly diverse uncontrolled matings. 87.81.230.195 (talk) 07:30, 10 October 2009 (UTC)
- Note that while inbreeding can be bad, in that it can cause reduced resistance to disease and other defects, that it isn't always bad, if the animals you start with are genetically healthy and different from one another. It can even lead to better breeds, if genetically unhealthy animals are prevented from interbreeding with the healthy ones. With the advent of genetic testing, it may be even easier to determine which animals would make the best breeding stock. StuRat (talk) 16:53, 13 October 2009 (UTC)
Yawning phenomenon
Why do people usually yawn simultaneously ? —Preceding unsigned comment added by 113.199.155.180 (talk) 04:02, 10 October 2009 (UTC)
- Yawning is infectious. Rkr1991 (Wanna chat?) 04:19, 10 October 2009 (UTC)
- That's just restating the question. Why is it "infectious"? --Anonymous, 04:51 UTC, 2009-10-10.
I looked at the article. Did you? It doesn't answer the question, just makes a flat statement that "yawning has an infectious quality... which is a typical example of positive feedback", in humans and chimpanzees. --Anonymous, 18:05 UTC, 20009-10-10.
- Maybe try reading the whole article next time? There's a whole section dedicated to it Yawning#Contagiousness. Perhaps it could be more detailed but it seems to give the right idea which is as discussed below that we don't know, there are lots of hypothesis. Incidentally, I do feel that Rkr1991's answer was poorly phrased since it wasn't that clear to me he/she was saying to look at the article (although I also agree the OP ideally should have looked at it first and then came here with any further questions). Nil Einne (talk) 05:56, 11 October 2009 (UTC)
- Apologies. I searched ahead for other mentions of "infectious" but it didn't occur to me that the article would switch to using a different word part way through. --Anonymous, 20:10 UTC, October 11, 2009.
- Short answer to "why is yawning infectious?" - research is ongoing, several possible explanations have been proposed, but none of them has yet been shown to be correct. Indeed, there is no general agreement on why people or other creatures yawn at all. 87.81.230.195 (talk) 07:11, 10 October 2009 (UTC)
:::Though I do know that just reding this made me yawn.:-)209.244.187.155 (talk) 12:28, 10 October 2009 (UTC)
For the same reason that people laugh together. We're just very very social creatures and what one person does influences everyone else in remarkable fashion. Vranak (talk) 23:23, 10 October 2009 (UTC)
- Well, none of these really answer the question. The truth is that the answer is simply not known. There are a lot of speculations about the mechanisms and functions of contagious behaviors, but very little in the way of cold hard facts. The existence of mirror neurons (which is controversial itself) probably has something to do with it. Looie496 (talk) 00:03, 11 October 2009 (UTC)
- I agree that we don't have an answer for this one. However, I believe the "mirror neuron" theory of yawning is busted. I forget where I saw that - but the existence of people like myself with Asperger's syndrome or Autism (which is in part a manifestation of the lack or malfunctioning of mirror neurons) provides an easy test. I certainly get caught up in the infectious yawning thing - yet I'm completely useless at picking up what other people are thinking. The infectious nature of yawning is obviously happening at a deeper level than things like copying other peoples body language when you agree with them. The most convincing explanation I've heard is that yawning is pre-linguistic communication (like laughing) and it comes from deep in our evolutionary past. The meaning is thought to be something like "we all need to switch activities right now", so when one person yawns, the other people yawn back to indicate that they understood the message - so pretty soon everyone in the group has seen the message. Moving from an activity to sleeping is just one of those things that we all tend to do together. I think it's significant that even talking about yawning makes one want to yawn - and reading a joke can make you laugh - which suggests that perhaps our higher level language abilities still have connections back to this pre-language stuff. SteveBaker (talk) 03:56, 11 October 2009 (UTC)
- Our article seems to claim the opposite: "A 2007 study found that young children with autism spectrum disorder do not increase their yawning frequency after seeing videos of other people yawning, in contrast to typically developing children. This supports the claim that contagious yawning is based on the capacity for empathy.[24]" Nil Einne (talk) 06:00, 11 October 2009 (UTC)
- I kid you not - I went to the yawn article, which I had never seen before, and started yawning as soon as I saw the illustration. Although it might just be mother nature telling me it's time to pack it in for the night. →Baseball Bugs What's up, Doc? carrots 08:05, 11 October 2009 (UTC)
thermodynamic resonance stabilisation
They always tell me that delocalised charge => more stable, and intuitively I can see why. But what is the rigourous explanation why? Does it relate to entropy and the distribution of energy among more microstates? John Riemann Soong (talk) 04:45, 10 October 2009 (UTC)
- Rigorous explanation. Hmm. Ultimately the only rigorous explanation comes from the quantum mechanics equations, which do not map reversibly onto the English language. As with so much of physics and the world the "characterisation" we use is just a way of looking at it not per sae rigorously true, because whichever way you do it is a simplification. The way I look at stability is in terms of intermediate energy states (in a quasi-static kind of way). Dislocalisation must have a more favourable Gibbs free energy or it would not happen but stability is more to do with how much of the structure (bonds etc) you have to disrupt to get to a reacted state and how big a hill that is to climb. The intermediate radicals are generally a big distortion. Put it another way, if you say you understand it intuitively then you understand it. --BozMo talk 06:45, 10 October 2009 (UTC)
- I consider more that electron delocalization (the resonance itself) is what increases the stability. Charge is just an artifact or result of the electron distribution, not the actual/primary feature that is delocalizing. LCAO is a convenient way to look at the electronic structure and see which atoms are electron rich vs poor. For example, allyl cation valence electrons are spread across all three carbon atoms but C2 provides more orbital contribution as this is the most constructive overlap (the σ looks like oOo). So C1 and C3 are relatively electron-deficient and σ is symmetric, so "a bit of a positive charge equally on each those positions". DMacks (talk) 07:09, 10 October 2009 (UTC)
- With regards to reactivity my rationalisation is that for example, it's harder for electrophiles to "attack" delocalised negative charge and nucleophiles to attack delocalised positive charge, but that's of course based on my intuitive understanding. In my mind I still have Gauss' law enclosed charge mixed up with all these other concepts.
- Okay, let's take say, reactivity of esters and amides towards nucleophilic substitution. So in simple terms, if Nu: attacks, it's harder to attack delocalised charge (especially if it's delocalised on the electrophilic carbon!) and you break resonance stabilisation and so on. But in reality, what is going on? Do the pi electrons move onto higher energy orbitals? John Riemann Soong (talk) 07:21, 10 October 2009 (UTC)
- You are not talking about discrete particles, but wavefunctions. I would caution you not to think too much in terms of "in reality". Trying to understand a complicated function (whether in Quantum Electronics or Fluid Dynamics or whatever) as though the truth was in the words and concepts and the equations were subservient to that will get you so far but as you get more into research it will not help you. I assume from the questions that you are approaching the point of becoming a researcher rather than just learning. SO you need to know the reality is the (huge continuous) data set, just like the universe is an imaginably big data set. All mental concepts (especially when refering to electrons as discrete particles) are at the very best only convergent to truth if you allow an indefinitely long description, or you work in a massively irreversibly compressed data set (such as the conceptual framwork we use for everyday life). That fact that short descriptions ("physical characterisations") work so well sometimes is remarkable, and working by concepts and patterns is a powerful way forward. But it does not make the descriptions "in reality". --BozMo talk 08:59, 10 October 2009 (UTC)
ring formation
I am quite frustrated by my class, because ring formation is presented as such a trivial step (and generally presented with hand-waving) when it my mind, it puzzles me. I know rings are unsaturated and that 5 or 6-membered rings are the best, but is there some big summary article that covers all the basic aspects of ring formation, driving forces, mechanistic geometries, stereoselectivities, etc. so I don't get tripped up on exams?
It's frustrating because I know the C-C bond forming mechanisms and everything goes well with linear molecules but I simply get tripped up by the sudden transition to rings. John Riemann Soong (talk) 06:33, 10 October 2009 (UTC)
- The real key is that rings aren't intrinsically "different" from non-rings. An intramolecular reaction is just two reactive components that happen to be attached to the same skeleton rather than two separate skeletons. What a ring does is constrain the motion or geometric possibilities of the reaction and add some structural concerns regarding stability. By looking at how the reactants are arranged in their reactive conformation and one can often see the same structure/stability issues as in the product. Intramolecularity also affects reaction rate: faster if two reactive centers are constrained to be near each other in proper reactive conformation, slower if they are constrained to be unable to approach each other for reaction mechanism. If you know 5 and 6 are stable ring sizes, then forming them is relatively easy, whereas other sizes are harder to close and/or more likely to undergo ring-opening reactions. Cyclohexane covers details of the stabilities and conformations of that ring, so, for example, it will be hard to close a cyclohexane if the reactive conformation involves having a sterically large group in an axial-like position. It doesn't matter if the ring itself is actually closed--the stability issue is based on local conformational effects. DMacks (talk) 06:53, 10 October 2009 (UTC)
- Okay what's a good way to efficiently predict whether a substituent will be axial or equatorial? Are you expected to work out all these conformational combinations in your mind? Is it time to bring back the model kit?
- Also, are there any rules of thumb for positioning reacting groups during a retrosynthesis? Sometimes I know I essentially need electron donating and electron withdrawing sites but my major problem (with rings) is getting them to fit on a small molecule without them being too far away or too close, and then I need to make sure my electron withdrawing group or electron donating group doesn't interfere or can be eliminated or reduced/oxidised conveniently at the end of the (pencil and paper) synthesis. Any tips? John Riemann Soong (talk) 07:10, 10 October 2009 (UTC)
- The first tip is: practice. The more experience you have, the more efficiently you can analyze a structure and recognize it as fitting a pattern you know.
- There is often no really foolproof way except to try lots of possibilities to see what looks good enough and has no obvious flaws. Try lots of different retrosynthetic disconnections. Look at many different aspects of a proposed starting material (and especially try to find reactions other than the one you want) and then decide which ones have structural or mechanistic problems and also which ones have more than one particularly good kinetic/thermodynamic effect. The real issue (and one that plagues every synthetic chemist!) is avoiding tunnel vision (seeing what you want to happen rather than some other possibility). Real chemistry is hard precisely because nature is even cleverer than we are, and can find the one reaction or structural special-feature we neglected to notice, or even a previously completely unknown "better" reaction than the one planned via retrosynthesis. On-paper is easier, and school-work is easier still because you only are expected to know a limited set of reactions.
- The second tips is: for geometry, it's almost always time to bring out the model kit unless you can visualize and diagram well (i.e., you rapidly get correct answers:) in 3D. If you are making a cyclohexane, draw the starting material in the same conformation as the product--maybe start by drawing the product and then erasing the bond being formed in the reaction. If you have studied cyclohexane conformations (most orgo texts devote many pages and maybe even a whole chapter to this specific topic!) you definitely know "axial is awful". Well not always because there could be other competing effects), and sometimes only "a little worse" (depending on what group is axial and because other conformations could have other instabilities). If you haven't looked at cyclohexanes lately, time to go back and reread. Or if you haven't learned that section yet but are at least expected to know about conformational effects, you can look at models and check for eclipsed and gauche interactions (the whole cyclohexane conformations topic is just a specific application of those same fundamental effects).
- The third tip is to practice. A lot. And then some more. There are rules-of -thumb for every reaction type, and certain types of structures "look like the product of a certain reaction" or "doesn't look like the product of a certain reaction" once you're familiar with the reaction. The ring positions of the donor and acceptor groups in Diels-Alder and electrophilic aromatic substitution reactions have particularly clear patterns. But all that can't be taught directly except by studying the reactions. DMacks (talk) 07:50, 10 October 2009 (UTC)
- "Predicting" stable configurations is the realm of molecular dynamics - which is a heavy-duty supercomputing-scale problem. A lot of empirically observed configurations are known to be stable; it's a difficult task to work out from first-principles of atomic interactions why these geometries would actually have a lower energy. Nimur (talk) 13:49, 10 October 2009 (UTC)
h1n1
- Moved from Talk:2009 flu pandemic
iam having touble getting out bed when lying down plus it hurts to cough an sneenze my chest feels like some one hit with a hammer —Preceding unsigned comment added by 173.81.224.6 (talk) 07:11, 10 October 2009 (UTC)
- We do not give medical advice, please go to a doctor.--Stone (talk) 07:48, 10 October 2009 (UTC)
- Oh yes? And what about the advice sought for the Chinese Tiger above I don't see you up there.
- Answers to a question about the inbreeding issue of the South China Tiger do not constitute medical advice under the terms of our guidelines. On the other hand, directly diagnosing a set of symptoms in some actual, specific, living person is flat out not allowed. Please read: Wikipedia:Reference_desk/guidelines#What_the_reference_desk_is_not...with special reference to the third bullet point. Any debate about that belongs on our discussion page, not here. SteveBaker (talk) 17:38, 10 October 2009 (UTC)
- Oh yes? And what about the advice sought for the Chinese Tiger above I don't see you up there.
Person posting the question, you are describing a person who is ill. You can only get good explaination from a doctor. You could be experiencing anything from flu to broken ribs or pure imagination. GO TELL DOCTOR Preceding medical advice given by ~ R.T.G 12:15, 10 October 2009 (UTC)
Wikipedia gives medical advice, it is, go and see a doctor or other qualified professional. ~ R.T.G 12:15, 10 October 2009 (UTC)
Mushroom from Virginia
If found these mushrooms beneath a pine tree in Virginia south west of Washington, does anybody know what they are? I think they look similar to a Amanita muscaria but without the red colour. Thanks--Stone (talk) 07:47, 10 October 2009 (UTC)
- Maybe Amanita cokeri, if so the article is in need of a picture. Mikenorton (talk) 08:10, 10 October 2009 (UTC)
- or Lepiota cristata. What is the smell like?--BozMo talk 09:31, 10 October 2009 (UTC)
- Looks a lot smaller than the ones I saw. 20 cm (7 inch) was the diameter of the largest ones. Amanita muscaria I found here in europe look most like those I found in Virginia.Amanita smithiana and Amanita solitaria look also not that different.--Stone (talk) 10:58, 10 October 2009 (UTC)
- Very difficult to identify the actual species without information that we don't have, e.g. in A.cokeri the shape of the bulb and the spores is diagnostic[12]. The cap size can be up to 15 cm (6 inches), so not much smaller than the ones you saw. The location is right, oak-pine forests in the eastern USA, but that doesn't settle it. On the other hand A.solaria is only found in Europe, A.smithiana is found in the Pacific Northwest and Lepiota cristata is much too small (max. cap size = 5 cm). Mikenorton (talk) 11:50, 10 October 2009 (UTC)
- Sorry! I thought that Lepiota cristata is too small, but Amanita cokeri is OK. --Stone (talk) 14:43, 10 October 2009 (UTC)
- Ah yes, I see now that you were replying to BozMo, doh! Mikenorton (talk) 15:43, 10 October 2009 (UTC)
- Sorry! I thought that Lepiota cristata is too small, but Amanita cokeri is OK. --Stone (talk) 14:43, 10 October 2009 (UTC)
- Very difficult to identify the actual species without information that we don't have, e.g. in A.cokeri the shape of the bulb and the spores is diagnostic[12]. The cap size can be up to 15 cm (6 inches), so not much smaller than the ones you saw. The location is right, oak-pine forests in the eastern USA, but that doesn't settle it. On the other hand A.solaria is only found in Europe, A.smithiana is found in the Pacific Northwest and Lepiota cristata is much too small (max. cap size = 5 cm). Mikenorton (talk) 11:50, 10 October 2009 (UTC)
sugar D M
I am suffering from sugar since 24 years ago. I used to take insulin twice a day 76 units. My doctor discovered sever inflammations in my stomach (CURED NOW) and tests revealed that my pancreas is working with a capacity of 80%. Im taking 50 units of insulin in the morning and 500mg metformin HOL 3 tablets daily plus a tablet of Galvus Vidagliptin 50mg. Some times my suguar level becomes lower than 100mg! I want an explanation and if there is a cure. thanks —Preceding unsigned comment added by 188.161.163.247 (talk) 09:12, 10 October 2009 (UTC)
- We do not give medical advice, please go to a doctor.--Shantavira|feed me 09:42, 10 October 2009 (UTC)
- He/she asked if there was a cure for diabetes and how exactly the problems occur. No advice sought here. ~ R.T.G 12:07, 10 October 2009 (UTC)
- He/she wants a medical explanation for their specific insulin results. We can't help with that, it's something they need to speak to a doctor about. — The Hand That Feeds You:Bite 18:39, 12 October 2009 (UTC)
- He/she asked if there was a cure for diabetes and how exactly the problems occur. No advice sought here. ~ R.T.G 12:07, 10 October 2009 (UTC)
- The Wikipedia article on diabetes may be of some help in explaining your situation. --Phil Holmes (talk) 12:13, 10 October 2009 (UTC)
Nutritional value of nut
Hi, if you ever kept birds you are always feeding them seeds and nuts. Birds are high octane creatures. Is the nut a really good all round food or? How do nuts in general match up to fruit in general? Is there a kind of nut that is especially good for us the way soya is in beans? ~ R.T.G 12:04, 10 October 2009 (UTC)
- In general, the macronutrient profile of nuts and fruits are very different.
- Nuts are very calorically dense (lots of calories per gram), and provide most of their calories in the form of fats. The fats in nuts are at least primarily the "good" unsaturated fats, not the worse saturated fats. Nuts are also quite high in protein, and indeed generally have even more protein than beans on a per-gram basis, although less than beans on a per-calorie basis. Little of the calories in nuts comes in the form of carbohydrates.
- Fruits are much less calorically dense than nuts, and provide most of their calories in the form of carbohydrates (starches and sugars). On a per-calorie basis, fruits generally have less protein than any other category of whole food, and they're very low in fat.
- In terms of vitamins, nuts would tend to be better in terms of the fat-soluble vitamins like A, D and E, and fruits would tend to be better in terms of the water-soluble vitamins like C or the B vitamins.
- Nuts are certainly a healthy food, when eaten in moderation, but I'm not aware of any specific nut species being exceptionally good for us. Eating too many nuts would be bad, though, because it'd be easy to get fat from them due to the high caloric density. Red Act (talk) 12:57, 10 October 2009 (UTC)
- One other diff, nuts are lower in water content than fruit. Thus, while a fruit-eating bird may not need any additional water (except maybe for bathing), a nut-eating bird likely will. StuRat (talk) 16:36, 13 October 2009 (UTC)
Clouds over Moscow
This looks very strange: [13] - What could cause it and why is it such a good circle? Thanks for info. --AlexSuricata (talk) 14:31, 10 October 2009 (UTC)
- Possibly a type of fallstreak hole? Karenjc 14:38, 10 October 2009 (UTC)
- If you want seriously weird clouds - these take some beating: http://www.wired.com/science/planetearth/magazine/17-10/st_clouds SteveBaker (talk) 02:58, 12 October 2009 (UTC)
Pepsi One's one calorie
Does Pepsi One really have a calorie, and if so, where does it come from? PCHS-NJROTC (Messages) 16:02, 10 October 2009 (UTC)
- I'm inclined to agree with the answer given here: [14] - the sucralose (sugar substitute) has food energy, but so little is added to the drink that the final product has only about one or two food calories in it. 66.178.144.193 (talk) 16:20, 10 October 2009 (UTC)
- "One calorie" is what we officially call, in the scientific community, a bullshit marketing term. The method of measuring caloric content in foods is not precise to the single calorie; it is actually rounded to the nearest 10 calories. Thus, any food with less than 5 calories will report as 0 calories on the nutrition label. "Just one calorie" was first used as such a marketing term for Diet Coke and I believe that Tic tac mints used to advertise themselves as "1 1/2 calorie" an even more rediculous claim given how bullshit claiming even 1 calorie is. It sounds more striking than "Zero calories", which lots of OTHER brands make the claim to, so claiming "One calorie" or "1 1/2 calories" is just a catchy way of being memorable. Certainly more memorable than "We have anywhere from zero to 5 calories, but we can't tell to that precision" --Jayron32 19:56, 10 October 2009 (UTC)
- Do tell us more, Jayron. Exactly why does the scientific community have such problems measuring the caloric content in foods that they are unable to provide figures less rounded than to the nearest 10? Sounds most odd. --Tagishsimon (talk) 20:05, 10 October 2009 (UTC)
- Anyone could measure the caloric content of such foods empirically, and get a number which is much more accurate than to the nearest ten calories. Its just that, that's not how food calories are measured. Doing a simple experiment like bomb calorimetry tends to overestimate the number of calories in unpredicatble ways, since there's lots of stuff which burns, but which the human body cannot use for energy (like cellulose, for example). Rather, the caloric content is calculated by counting up the grams of fat, protein, and digestable carbohydrate in the food, and multiplying those numbers by standards (9 cal/gram for fat, 4 cal/gram for carbs and protein) and adding the results. Recognizing that this method is also flawed, the resulting number from that calculation is always reported to the nearest 10 calories on U.S. food labels, so officially reported caloric values are never anything but a multiple of 10 calories. You could experimentally determine caloric content to a more accurate and precise result, except that the food industry doesn't do it that way. See Food energy for a description of most of what I explain above. --Jayron32 20:19, 10 October 2009 (UTC)
- That's what I was thinking; the calories on the "Nutrition Information" box seen in the US is determined by algebric equation considering the fat, sugar, and protein in a product, but Pepsi One apparently has none of these. However, the Nutrition Information box on Pepsi One reports the "one calorie," and I thought that information was required to be scientific based on government specifications. Of course we all know that the government almost never does anything as they say they will. 71.54.231.5 (talk) 20:52, 10 October 2009 (UTC)
- I'm curious, what does it actually say on the nutritional information (rather than the marketing)? In the UK, amounts smaller than can be reliably distinguished from zero at the standard precision (but aren't actually zero) are described as "trace" although that doesn't quite make sense for calories... --Tango (talk) 21:05, 10 October 2009 (UTC)
- On American labeling, all caloric values are rounded to the nearest 10 calories, and all gram/mg amounts are rounded to the nearest 1 gram/mg IIRC. See Nutrition facts label. So anything less than 0.5 grams is reported as 0 grams, and anything less than 5 calories is reported as 0 calories. --Jayron32 23:51, 10 October 2009 (UTC)
- The Pepsi website gives a mock label [15] with a 1 Calorie citation. Does anyone have an actual product sample to verify that? Also, are they legal requirements for Calorie labeling (e.g. the use of formulas and the nearest 10 rule) or can they company choose to fudge it for the sake of their marketing? Dragons flight (talk) 00:11, 11 October 2009 (UTC)
- Doesn't it depend on how many Tic Tacs (or whatever) you estimate the calories for? For example, if you estimate the energy content for 1 million Tic Tacs based on the precise quantities of fat etc and presuming your production equipment and ingredients is reliably precise and consistent, you'd surely be able to estimate to within 1 calorie? Having said that according to our article (and from memory) they're advertised as having less then 2 calories rather then 1.5 calories in a few countries including I believe in New Zealand and Malaysia Nil Einne (talk) 06:20, 11 October 2009 (UTC)
- Yes, you could, but as Jayron32 explains above, they don't. There really is nothing to gain by such precise measurements, other than marketing slogans and the marketers are happy to just makes things up, so why would anyone make the measurements? --Tango (talk) 06:25, 11 October 2009 (UTC)
- But that's the thing. Are we sure they don't? Just because something is usually the case doesn't mean it is always the case. And it would likely vary from location to location. (For example, I'm far from convinced Tic Tac could get away with saying less then 2 calories if they generally had more then 2 calories in a number of countries.) Also it would seem to me there's a big difference between something like say a pie, where there's likely to be a large variance from pie to pie since it will depend on the meat etc and a Tic Tac with a fairly uniform consistent and a standard set of highly refined ingredients. Also Jayron32 hasn't explained what quantities are used. As I've said, there is surely a difference between estimating for 1 million Tic Tacs and 1000 Tic Tacs. Is it standard to estimate for 1000 kg? 10000 kg? Or does it go by volume? Is it really true that every single manufacturer uses this standard quantity? I'm not saying the figure definitely has any merit. I'm just saying I'm far from convinced the figure is complete bullshit. In fact I would say arguing the precision is always +/- 5 calories is just as likely to be a wild simplification. (Just because it's normal practice perhaps encouraged by the regulators, doesn't mean that it's the best scientific claim.) Also I didn't say anything about measurements. In fact I was talking about quantities used for estimation (via calculation methods). Nil Einne (talk) 06:55, 11 October 2009 (UTC)
- They can probably say with reasonable confidence that there are less than 2 calories per tic tac averaged over an entire pack, which would be plenty to justify the marketing. They probably can't guarantee that every tic tac has less than 2 calories, since the manufacturing/QA process won't be good enough. --Tango (talk) 07:19, 11 October 2009 (UTC)
- But that's an entirely different point. Jayron is saying it's nonsense since the value is between +/- 5 calories because of the unreliability of estimation methods but I'm far from convinced. If the average value is ~2 calories within a fair degree of precision (which IMHO could be +.- 0.5 calories or higher), that's the average value. The value per Tic Tac is obviously not going to be exactly 2 calories but that's a different point. And when it comes down to it, it seems unlikely it's going to be between 0 to 5 calories either, particularly for something like a Tic Tac. Also if the average value is 1 calorie (it doesn't seem to be), it seems entirely reasonable a high percentage of Tic Tacs are going to be 2 calories. (Some odd stuff like e.g. 2 Tic Tacs joined together will be significantly different although then we get into the complicated question of whether that's 1 Tic Tac or not.) Note that I was the first person to bring up manufacturing methods, variance between products and consistency etc. Jayron appears to be solely talking about the method to estimating or measuring energy content and the unreliability thereof, not about the natural variance between products. To reiterate, while I'm partially the cause of the confusion, my original point was that whether you are estimating the value by calculating the energy content or measuring it via some highly accurate method you can likely come up with a value with a greater degree of precision then +/- 5 calories per average serving. Obviously there's going to be variance between servings (and in many cases even between batches) but that's a different point since it doesn't matter whether you use a highly accurate measurement method or estimate the difference is still going to be there. (You do know the precise values for the units you tested but as you've likely destroyed these it's a somewhat moot point.) Or to put it a different way, there's a difference between measurement/estimation error and between false precision of a single unit of some product because of differing consistency between units. Nil Einne (talk) 07:39, 11 October 2009 (UTC)
- They can probably say with reasonable confidence that there are less than 2 calories per tic tac averaged over an entire pack, which would be plenty to justify the marketing. They probably can't guarantee that every tic tac has less than 2 calories, since the manufacturing/QA process won't be good enough. --Tango (talk) 07:19, 11 October 2009 (UTC)
- But that's the thing. Are we sure they don't? Just because something is usually the case doesn't mean it is always the case. And it would likely vary from location to location. (For example, I'm far from convinced Tic Tac could get away with saying less then 2 calories if they generally had more then 2 calories in a number of countries.) Also it would seem to me there's a big difference between something like say a pie, where there's likely to be a large variance from pie to pie since it will depend on the meat etc and a Tic Tac with a fairly uniform consistent and a standard set of highly refined ingredients. Also Jayron32 hasn't explained what quantities are used. As I've said, there is surely a difference between estimating for 1 million Tic Tacs and 1000 Tic Tacs. Is it standard to estimate for 1000 kg? 10000 kg? Or does it go by volume? Is it really true that every single manufacturer uses this standard quantity? I'm not saying the figure definitely has any merit. I'm just saying I'm far from convinced the figure is complete bullshit. In fact I would say arguing the precision is always +/- 5 calories is just as likely to be a wild simplification. (Just because it's normal practice perhaps encouraged by the regulators, doesn't mean that it's the best scientific claim.) Also I didn't say anything about measurements. In fact I was talking about quantities used for estimation (via calculation methods). Nil Einne (talk) 06:55, 11 October 2009 (UTC)
- Yes, you could, but as Jayron32 explains above, they don't. There really is nothing to gain by such precise measurements, other than marketing slogans and the marketers are happy to just makes things up, so why would anyone make the measurements? --Tango (talk) 06:25, 11 October 2009 (UTC)
- Doesn't it depend on how many Tic Tacs (or whatever) you estimate the calories for? For example, if you estimate the energy content for 1 million Tic Tacs based on the precise quantities of fat etc and presuming your production equipment and ingredients is reliably precise and consistent, you'd surely be able to estimate to within 1 calorie? Having said that according to our article (and from memory) they're advertised as having less then 2 calories rather then 1.5 calories in a few countries including I believe in New Zealand and Malaysia Nil Einne (talk) 06:20, 11 October 2009 (UTC)
- The Pepsi website gives a mock label [15] with a 1 Calorie citation. Does anyone have an actual product sample to verify that? Also, are they legal requirements for Calorie labeling (e.g. the use of formulas and the nearest 10 rule) or can they company choose to fudge it for the sake of their marketing? Dragons flight (talk) 00:11, 11 October 2009 (UTC)
- On American labeling, all caloric values are rounded to the nearest 10 calories, and all gram/mg amounts are rounded to the nearest 1 gram/mg IIRC. See Nutrition facts label. So anything less than 0.5 grams is reported as 0 grams, and anything less than 5 calories is reported as 0 calories. --Jayron32 23:51, 10 October 2009 (UTC)
- Anyone could measure the caloric content of such foods empirically, and get a number which is much more accurate than to the nearest ten calories. Its just that, that's not how food calories are measured. Doing a simple experiment like bomb calorimetry tends to overestimate the number of calories in unpredicatble ways, since there's lots of stuff which burns, but which the human body cannot use for energy (like cellulose, for example). Rather, the caloric content is calculated by counting up the grams of fat, protein, and digestable carbohydrate in the food, and multiplying those numbers by standards (9 cal/gram for fat, 4 cal/gram for carbs and protein) and adding the results. Recognizing that this method is also flawed, the resulting number from that calculation is always reported to the nearest 10 calories on U.S. food labels, so officially reported caloric values are never anything but a multiple of 10 calories. You could experimentally determine caloric content to a more accurate and precise result, except that the food industry doesn't do it that way. See Food energy for a description of most of what I explain above. --Jayron32 20:19, 10 October 2009 (UTC)
- Do tell us more, Jayron. Exactly why does the scientific community have such problems measuring the caloric content in foods that they are unable to provide figures less rounded than to the nearest 10? Sounds most odd. --Tagishsimon (talk) 20:05, 10 October 2009 (UTC)
- "One calorie" is what we officially call, in the scientific community, a bullshit marketing term. The method of measuring caloric content in foods is not precise to the single calorie; it is actually rounded to the nearest 10 calories. Thus, any food with less than 5 calories will report as 0 calories on the nutrition label. "Just one calorie" was first used as such a marketing term for Diet Coke and I believe that Tic tac mints used to advertise themselves as "1 1/2 calorie" an even more rediculous claim given how bullshit claiming even 1 calorie is. It sounds more striking than "Zero calories", which lots of OTHER brands make the claim to, so claiming "One calorie" or "1 1/2 calories" is just a catchy way of being memorable. Certainly more memorable than "We have anywhere from zero to 5 calories, but we can't tell to that precision" --Jayron32 19:56, 10 October 2009 (UTC)
- (EC) I briefly glanced thorough the (joint) standards in New Zealand and Australia. [16]. Of greatest interest "The average energy content, and average or minimum or maximum quantities of nutrients and biologically active substances must be expressed in the panel to not more than three significant figures." This hints at something I've been thinking but didn't really mention. It seems to me to be somewhat silly to to suggest something complex like a pie with a large energy content (unless it's sugar or refined glucose perhaps) is +/- 5 calories the same as something with a small energy content like a Tic Tac. The precision surely depends at least a bit on the size of the value. It also says "Where the average energy content of a serving or unit quantity of the food is less than 40 kJ, that average energy content may be expressed in the panel as ‘LESS THAN 40 kJ’" which is about 10 calories. Note the "may". It doesn't say you aren't allowed to specify a more precise value if you know it. I presume if you do specify a more precise value, it needs to be backed up. (In any case, obviously saying 39kJ is in some ways more or less as bad as saying 41kJ.) Our article suggests that the value for average energy content for 100g (which is the standard used in NZ in addition to serving) is 1658kJ. Okay in NZ-A that would be 1660kJ. It appears to suggest there are about 200 Tic Tacs in 100g. So you end up with ~8.3kJ per Tic Tac which is slightly under 2 calories. Presuming the 1660kJ value is reasonably accurate it seems difficult for me to presume it's going to be that much higher, up to 5 calories. And it seems to me reasonable you can estimate the value for 100g to a greater degree of accuracy then between 0 to 4187 calories for 100g of TicTac. And as I've said, Tic Tacs are something of sufficient consistency that a value per serving is going to be reasonably accurate. What they actually say on Tic Tac labels here I don't know but I don't think that's really the question. Nil Einne (talk) 07:39, 11 October 2009 (UTC)
(outdent) I can confirm by direct inspection at the supermarket that Pepsi One in the US has a nutritional information box stating it has 1 Calorie, 0 Fat, 0 Carbohydrate, 0 Protein. Dragons flight (talk) 12:40, 11 October 2009 (UTC)
- The official Food and Drug Administration website has the following Claims That Can Be Made for Conventional Foods and Dietary Supplements. "The responsibility for ensuring the validity of these claims rests with the manufacturer, FDA, or, in the case of advertising, with the Federal Trade Commission." If a vendor or manufacturer violates these standards, legal action can be pursued by either the FDA or the FTC (depending on the type of violation). As far as measurements, the Compliance Guidance Document states that the "FDA has not stated how a company should determine the nutrient content of their product for labeling purposes. Therefore, there is no prohibition from using "average" values for its product derived from data bases if a manufacturer is confident that the values obtained meet FDA's compliance criteria." Per Nutrition Labeling Guidelines, the Pepsi may be called "Calorie Free" if it contains fewer than 5 calories per "recommended amount for consumer consumption." "The caloric value of a product containing less than 5 calories may be expressed as zero or to the nearest 5 calorie increment (i.e., zero or 5 depending on the level). Foods with less than 5 calories meet the definition of "calorie free" and any differences are dietarily insignificant." (So, the FDA only enforces to the nearest 5 calories - Pepsi One falls into this category). I think it would be silly to assume that a major beverage corporation didn't perform its due diligence before making a nutritional claim in an international marketing effort - it is clearly within acceptable limits of accuracy. The FDA has mandated that labeling claims must be validated either independently (by the manufacturer) in accordance with AOAC International-approved techniques, or using standard information from the USDA database. Information on these methods is available in this book, Nutrition Labeling, available online. This question could have been easily answered with a few good references - even the official Pepsi One website states very clearly: Information reflects rounding as required by the Food & Drug Administration (21 CFR 101). This may produce occasional irregularities in some values when comparing information for different serving sizes. They state very clearly - without any ambiguity - that there is rounding error in their measurement that is within acceptable legal tolerances. They even state the applicable legislation: US Code Title 21 CFR 101 Nimur (talk) 18:48, 11 October 2009 (UTC)
- Of course that's all well and good, but it doesn't actually answer the original poster's question. Assuming that it really does have approximately 1 Calorie as stated on it packaging and nutritional label, and that's not some sort of marketing ploy, then what ingredient(s) of Pepsi One are contributing materially to that one Calorie? Dragons flight (talk) 19:35, 11 October 2009 (UTC)
- There's lots of stuff there which may be marginally digestable by humans. Caramel color for example is pretty much just treated sugar caramel, and Pepsi One uses caramel color, so it could rightly claim that the one calorie came from the few milligrams of caramel color in its soda. If there were really about 1 calorie, and I had to make a guess as to the makeup of that 1 calorie, I would guess most of it is caramel color. --Jayron32 06:17, 12 October 2009 (UTC)
- Of course that's all well and good, but it doesn't actually answer the original poster's question. Assuming that it really does have approximately 1 Calorie as stated on it packaging and nutritional label, and that's not some sort of marketing ploy, then what ingredient(s) of Pepsi One are contributing materially to that one Calorie? Dragons flight (talk) 19:35, 11 October 2009 (UTC)
Water
What volume of water is in biomass form above sea level, and roughly what sea level alteration would this lead to if all life was exterminated. —Preceding unsigned comment added by 129.67.39.44 (talk) 17:42, 10 October 2009 (UTC)
- A very quick initial skim via Google suggests that the World's total biomass is in the region of 10-8 of the World's total surface water mass. This suggests that 99.999999% of the World's water is not part of current biomass, so even if all terrestrial biomass water was to be returned to the oceans (which would not necessarily happen as some water would enter the atmosphere) any sea-level rise would be insignificant. I'm sure others will be eager to firm up or refute this hasty guesstimation, if only to prove me an idiot. 87.81.230.195 (talk) 19:41, 10 October 2009 (UTC)
- Even the most brief thought suggests that it would make little difference to the sea level. Biomass is a very thin layer on some of the land surface. --Tagishsimon (talk) 19:45, 10 October 2009 (UTC)
- Thus far we have of course been discussing short-term results. Plugging your scenario into the strong version of the Gaia hypothesis suggests that, in the much longer term, the absence of life might disrupt the Hydrological cycle and in turn the facilitation of Plate tectonics by water chemically absorbed into the Lithosphere. With plate tectonics slowing down and stopping, absorbed water would no longer be volcanically recycled back into the Hydrosphere and surface water would dwindle to nothing, as has evidently happened on Mars. 87.81.230.195 (talk) 16:33, 12 October 2009 (UTC)
Fastest human BPM
What's the highest ever recorded heart rate of a human? Thanks Pineapplegirls (talk) 17:57, 10 October 2009 (UTC)
- Heart rate is naturally a lot higher in babies and young children, so do you want the highest for all humans or the highest for an adult human? --Tango (talk) 18:48, 10 October 2009 (UTC)
- I couldn't find a reliable source to answer this. However I would guess somewhere around 300 beats per minute in cases of Wolff-Parkinson-White syndrome. The heart cannot sustain this rate for long because the cardiac output drops off and cardiac arrest ensues. Axl ¤ [Talk] 18:50, 10 October 2009 (UTC)
- According to death from laughter, a Danish audiologist's heart rate was estimated to have peaked between 250 and 500 bpm prior to death. ~AH1(TCU) 13:37, 11 October 2009 (UTC)
- Hmm, I'm getting 404 Not Found for the reference. Axl ¤ [Talk] 16:39, 11 October 2009 (UTC)
- According to death from laughter, a Danish audiologist's heart rate was estimated to have peaked between 250 and 500 bpm prior to death. ~AH1(TCU) 13:37, 11 October 2009 (UTC)
- In the article on tachycardia (rapid heart rate of various kinds), the highest number mentioned is 250 BPM for the case of ventricular tachycardia. Red Act (talk) 17:21, 11 October 2009 (UTC)
- I think the definition of atrial flutter includes a rate of 250-300 bpm -- perhaps a distinction between atrial vs. ventricular beat rates should be made. DRosenbach (Talk | Contribs) 02:26, 12 October 2009 (UTC)
Music levels...
Just wondering, if I were to listen to music on the go at the same volume, would something like metal still be more damaging than easy listening? If perhaps the peaks (no idea about technical terms) were sharper. Even if I do listen to music on the go, I keep a respectable volume, I am curious anyway. Thanks! —Preceding unsigned comment added by Infiniteuniverse (talk • contribs) 22:58, 10 October 2009 (UTC)
- The volume is the primary factor in hearing damage, not the type of music. Remember, Beethoven went deaf and he never listened to heavy metal. Regardless of your musical taste, keep the volume down. You will appreciate it when you are much older and you don't have to blow all your money on hearing aid batteries. -- kainaw™ 01:39, 11 October 2009 (UTC)
- According to the Ludwig van Beethoven article, the cause of his deafness is not known for certain, but seems to have been caused by disease rather than by loud music. →Baseball Bugs What's up, Doc? carrots 01:57, 11 October 2009 (UTC)
- The Hearing impairment article talks about the many causes. Loudness certainly is one cause, tied in with duration. The volume of classical music tends to ebb-and-flow more than, say, heavy metal. But listening to a shrieking soprano at high volume for a long time could likely be damaging. →Baseball Bugs What's up, Doc? carrots 02:07, 11 October 2009 (UTC)
- I rarely listen to music on the go, as I indeed do want to hear well later in life. I usually listen to podcasts, sometimes ones with some music, and that is when it is mostly quiet out, so I don't have to turn the volume up. I like to have the earbuds in when it is noisy and listen to nothing also, to dampen the sound slightly.Infiniteuniverse (talk) 06:02, 11 October 2009 (UTC)
- Unfortunately, many popular music albums, in all genres, are engineered for maximum loudness - see Loudness war. Therefore the difference should be minimal. MaxVT (talk) 19:09, 11 October 2009 (UTC)
- In addition to the average volume, there's also the issue of the dynamic range of volumes and frequencies. I'd actually think classical music would be the worst, as they will go between silence and cannons or one loud high-pitched cymbal. The "wall of sound" approach to most popular music ensures that there is never silence and noise is generated at every possibly frequency, so as not to deprive any of your neighbors' auditory nerve cells of the opportunity to enjoy your music. StuRat (talk) 15:42, 13 October 2009 (UTC)
October 11
Does ether and methanol form an azeotrope?
An experiment procedure effectively adds methanol to ether (that's dissolved my product) and then apparently if I let it boil for a short while before adding water to induce precipitation, most of the ether has evaporated. This is over steam bath -- I know ether boils quick, but this is at least 15 mL ether we're talking about here. How much would methanol depress the boiling point of the mixture, if they form a positive azeotrope?
Theoretically my worry actually is because I'm not sure if I'm dealing with a 2-solvent recrystallization or a 3-solvent recrystallization ... John Riemann Soong (talk) 01:54, 11 October 2009 (UTC)
- You could do a quick GC run. The retention times of both methanol and ether should be pretty standard, you could tell roughly how much of your solvent is either methanol or ether based on the chromatography. I am pretty sure you can get rough quantitative assements from a GC run by integrating the area under the peaks. --Jayron32 04:40, 11 October 2009 (UTC)
- Unfortunately I have no time to go back to the lab before my report is due (well mainly cuz I have like 2 exams before it). I'm not privileged enough to get a key to a room with a GC unsupervised. John Riemann Soong (talk) 06:18, 11 October 2009 (UTC)
Electroplating Copper on Iron
Hello. Given copper(II) sulfate solution, aluminum, an aluminum salt solution, and iron; I'd like to electroplate copper on iron via a spontaneous redox reaction. I plan to submerge Al in a beaker filled with aluminum nitrate solution and Fe in another filled with CuSO4(aq). Would Fe react with its electrolyte due to the reactivity series? If so, how can I electroplate Cu on Fe since most Cu salt solutions would react with Fe? Thanks in advance. --Mayfare (talk) 03:14, 11 October 2009 (UTC)
- Unfortunately, Iron may be a bad choice for your cathode here since it will react SO readily with the copper, that it may be hard to not get the iron to dissolve off into the solution while you are trying to plate it with the copper. Stainless steel, being a less reactive alloy, may work better, but pure iron is a fairly reactive metal. Drop an ungalvanized iron nail into a copper (II) solution, and within minutes the nail will start to pit and the copper will begin to plate in the pits. This is a sort of "chemiplating", but it will not give a nice, even finish like true electroplating would. --Jayron32 04:29, 11 October 2009 (UTC)
- Curious, how do alloys work during electroplating? Surely some sort of phase transition must take place? John Riemann Soong (talk) 06:12, 11 October 2009 (UTC)
- Any conductive material can be electroplated. The cathode will gather metal to it regardless of its identity, so ideally you want a conductive, but relatively non-reactive cathode to prevent the material from degrading by doing its own spontaneous redox reactions. Stainless steel would still react with copper (II) solutions, but likely much more slowly than would pure iron, so you would get a fighting chance to electroplate a smooth clean layer of copper onto the surface of the steel. Once the first layer of copper is there, it will protect the underlying metal, so it can build up on its own. --Jayron32 06:12, 12 October 2009 (UTC)
dc motor
diff. b/w wdgAnkit Badnara (talk) 03:50, 11 October 2009 (UTC)
- There's an article on DC motor. I take "b/w" to mean "between". "wdg"??? →Baseball Bugs What's up, Doc? carrots 04:25, 11 October 2009 (UTC)
- b/w could also mean backed with, a common abbreviation back in the days of 45 rpm phonograph singles, like "Hey Jude", b/w "Revolution (song)", indicating the "A-side" and "B-side" of the single. This could be a question for the Entertainment Desk for all we know. --Jayron32 04:35, 11 October 2009 (UTC)
- I think we're going to need a complete sentence - at a minimum - if we're going to have a shot at answering something. wgd might be "windings" - so maybe this is something like "What is the voltage difference between the windings of a DC Motor?"...but then it could equally be "Are there diffeomorphisms between wedgies?". SteveBaker (talk) 04:31, 11 October 2009 (UTC)
- ...or "What is the difference between the windings of the various kinds of DC motors (brushed vs. brushless)?", or "What is the difference between the windings of a DC motor and an AC motor?" Red Act (talk) 05:16, 11 October 2009 (UTC)
- If it weren't for the title, it could be a sociological question as to whether interracial marriage can be challenging: "Difficult black/white wedding?" Red Act (talk) 07:16, 12 October 2009 (UTC)
- No, the title is easy: dc is mostly black, and I would guess that speakers of motor were probably white. Olaf Davis (talk) 21:49, 13 October 2009 (UTC)
Crack on the Moon
Is there a significant crack on the Moon that dates back about 1400 years? And what's the story behind this?--Email4mobile (talk) 09:23, 11 October 2009 (UTC)
- The moon has been thought to be geologically dead for the past few billion years (other than impact cratering), so as far as we know, no. Also, there is no way for us to date to 1400 years ago, and no way for us to get accurate pre-telescope records of fine-scale features. There is an article on Rilles here on wiki, unfortunately I am not a planetary scientist so I can't give you any more info than that ('tis also well past my bedtime). Awickert (talk) 09:30, 11 October 2009 (UTC)
- In addition to possible cracks caused by impact craters, there are also moonquakes caused by the Earth-generated tides on the Moon (yes, solid rock experiences tides, too). If we go back much further than 1400 years, there may also be thermal expansion cracks from when the Moon cooled to it's current temp. StuRat (talk) 15:33, 13 October 2009 (UTC)
- If by "significant crack" you mean one that is consistent with the widespread claim in Islam that the Prophet split the Moon in two to convince the Unbelievers (Koran 54:1 - well actually, the Koran does not precisely support this myth either, but read it for yourself) then absolutely and emphatically no there is not. The picture you have linked to is a former NASA picture of the day and depicts the Ariadaeus Rille. The NASA article on this rille says that it is relatively young, but planetologists usually mean a lot older than 1400 years by that phrase. It is 300 km long, but that is nowhere near long enough to represent a repaired bisection of the moon. It consists of a line of sunken surface called a graben caused by a parallel line of geological faults. This is nowhere near a traumatic enough process to be connected with moon-splitting. In fact, there are a large number of such rilles (so called straight rilles) all over the surface of the moon going every which way. NASA has an informative article on them. You will need more than a line on the moon to convince this unbeliever. SpinningSpark 16:56, 11 October 2009 (UTC)
- We know significantly more about the geology of the Hadley Rille, because Apollo 15 landed there with intent to study it. The best understanding of lunar seismology is still pretty vague - most lunar scientists believe that these faults are cooling-artifacts. They presumably form after thermal expansion of large areas molten lunar crust - areas of lunar surface that melted in cataclysmic impacts (as opposed to the earth-like plate tectonics). However, we can't say for sure since we have very limited data on the moon's subsurface geology. Nimur (talk) 19:32, 11 October 2009 (UTC)
Voice
Does the male voice continue to deepen with age, after puberty? Younger males, around 18 and 19, on average seem to have more high pitched voices compared to older males. Clover345 (talk) 12:08, 11 October 2009 (UTC)
- Good question. I thought the answer would be in Vocal register but I can't find it there. Anyway you're right to some extent. Mens voices can deepen till their mid twenties. When men and women get old though mens voices rise again and womens lower so for very old people you might find it difficult to tell from the voice if they're male or female. Dmcq (talk) 13:57, 11 October 2009 (UTC)
- Your observations seem to be right. This article contains a helpful diagram of changes in the voice with age, which appears to show the fundamental frequency of the average male voice deepening quickly in the teeage years, then continuing to deepen more slowly until around 40, after which it is relatively stable until it starts rising again at around 60. Karenjc 16:24, 11 October 2009 (UTC)
- As with many male/female differences, development of the vocal cords appears to be regulated by hormones. There is a fairly detailed discussion in Vocal folds#Impact of hormones. --- Medical geneticist (talk) 00:10, 12 October 2009 (UTC)
how does double-stranded RNA work?
Nothing I search online seems to address the idea that the ribose sugar is too big and Watson and Crick's original prediction about how RNA couldn't be double-stranded. John Riemann Soong (talk) 15:51, 11 October 2009 (UTC)
- Alexander Rich (MIT), one of the discoverers of the structure of dsRNA around 1960, had this to say about the differences between dsRNA and dsDNA:
Eventually, it was discovered that the double-stranded (ds)RNA molecule adopted a conformation similar to the A form of DNA, exclusively using a C3' endo sugar pucker (Fig. 1). The reason for this adherence to the C3' endo sugar pucker in RNA becomes apparent on looking at the position of the additional oxygen that would be present at the C2' position of ribose (See Fig. 1). In the C3' endo conformation of dsRNA, there is adequate separation between the oxygen on C2' and the oxygen on C3' in contrast to a van der Waals crowding that occurs if the dsRNA sugar pucker were C2' endo. Because of the unfavorable energetic situation of ribose in the C2' endo conformation, RNA molecules are usually found in the C3' endo conformation. There is an energy barrier between the two puckers for ribose; in contrast, the deoxyribose ring has very little barrier.
- There may be more recent and detailed commentaries, but I think this addresses the spirit of your question. -- Scray (talk) 19:02, 11 October 2009 (UTC)
decline in platelets
last month i suffered a brain haemorrhage. past 6 days my platelets are on a downward trend;reduced from 298k to 191k. is there a cause to worry? —Preceding unsigned comment added by Nipun310 (talk • contribs) 18:08, 11 October 2009 (UTC)
- Sorry, best wishes but we are forbidden to answer questions about people's personal medical conditions. Looie496 (talk) 18:16, 11 October 2009 (UTC)
- Here is the guideline that prohibits us from giving medical advice. Please ask your doctor. Red Act (talk) 18:31, 11 October 2009 (UTC)
- We can't try to explain what is happening in your situation or whether or not you should worry about it, since that would require detailed knowledge of your situation and it would be inappropriate for us to try to make a diagnosis over the internet. However, we have articles on platelets and hemostasis. A detailed explanation of your particular situation is best left to your doctor. --- Medical geneticist (talk) 00:28, 12 October 2009 (UTC)
paralysed from the waist down
does the wedding tackle still work or not, or does it depend? —Preceding unsigned comment added by 86.128.191.115 (talk) 20:53, 11 October 2009 (UTC)
- See Paraplegia#Disability -- Finlay McWalter • Talk 20:55, 11 October 2009 (UTC)
- Fixed your link. --Anon, 22:02 UTC, October 11, 2009.
- It didn't work for Lord Chatterley. Cuddlyable3 (talk) 13:19, 15 October 2009 (UTC)
October 12
Rattlesnake Anti Venom avalibility
I did not get bitten but it sure was close today when I almost stepped on a very large Timber Rattler.
We both startled each other and I sure did jump quick. The snake is still alive and out behind the house somewhere as I don't kill wild animals that have as much right as I do to live.
My question goes more to "What if" I had been bitten and needed the Anti Venom quick.
Do hospitals keep this stuff on hand?
How long might it take for the hospital to locate it and get it in an emergency?
I live in the NY Catskill Mountains, Sullivan County. These snakes are here but not very common, I have seen only 3 in almost 60 years. —Preceding unsigned comment added by Gamalot52 (talk • contribs) 00:33, 12 October 2009 (UTC)
- It is my understanding that US hospitals keep antivenoms for all native snakes. As for how long can the hospital locate it? I'm sure they could have it to you quicker than it would take them to identify the snake. In any case, be careful. By all accounts, rattlesnakes hurt a lot, and can make you pretty sick. Call your local hospital and ask. They'll know if they have it on hand. Falconusp t c 01:48, 12 October 2009 (UTC)
- In my experience as a medical student in Kentucky, your antivenom would have been CroFab. It's expensive. If a small hospital were to stock it, have no patients, and let it expire, it would cost the hospital thousands of dollars per vial [17] and several vials are necessary to treat even one adult. This scenario is very likely given the sporadic nature of snake bites. Thus by pure economics, most small rural hospitals will not have it on hand, and you would be transferred to a tertiary care center if you really needed it. - Draeco (talk) 05:56, 12 October 2009 (UTC)
Why is sneezing convulsive?
As we now know, many animals sneeze. That's understandable, but why does it have to be convulsive - why does the individual have (almost) no control over it? Why can't it be just like other processes that clean the body (defecation and urination), that give the individual some discretion about the timing? It's not hard to think of circumstances in which it could be disastrous for an animal to sneeze at the wrong time - such as a when it means being detected by a predator or prey. I doubt that it's always of such life threatening importance that it has to be done immediately. Waiting a bit, while just breathing through the mouth for the time being, seems like a much better adapted alternative. Why can't we do that? — Sebastian 00:45, 12 October 2009 (UTC)
- Coughing is a similar deal though - we can't help doing that either. SteveBaker (talk) 02:54, 12 October 2009 (UTC)
- Actually I remember reading somewhere that if a human isn't systematically toilet trained from a young age then they will most likely fail to develop an ability to control when they go to the toilet, to a greater extent. I think the fact that you have mucous membrane in your nose and throat probably plays a large part, it's probably more sensitive to infection and such, so there is probably a biological advantage to not let dirt or whatever sit on your membranes for longer then possible. Vespine (talk) 04:57, 12 October 2009 (UTC)
- So i just had a quick read of the mucous membrane article and it actually says that the mucous acts against infection by trapping it, i'm sure it's still more prone then epidermis and your body still probably rather avoid (relatively) large bits of dirt sticking to it. Vespine (talk) 05:01, 12 October 2009 (UTC)
- Its thought that the ancestral mammalian condition was obligate nose breathing (that is, our evolutionary predecessors used to only be able to breathe through their nose, and not their mouth). For many (but not all) non-human mammals that is still the case. Thus having a semi-autonomous mechanism in place to clear the airway of obstruction/infection would be quite advantageous, as Sebastian notes about coughing. Note also that human neonates are pretty much obligate nose breathers for the first few months, so they don't really have the option of waiting a bit, while just breathing through the mouth for the time being. I expect uncontrollable sneezing is a physiological artifact from before oronasal breathing was an option. Rockpocket 06:53, 12 October 2009 (UTC)
- Thanks, that sounds plausible! — Sebastian 15:58, 12 October 2009 (UTC)
- I frequently can control coughing and sneezing. Also, just because you can't consciously control something doesn't mean you can't unconsciously control it. The sneeze and cough responses may well be suppressed during times when they would cause trouble, such as when sleeping or hiding. StuRat (talk) 15:23, 13 October 2009 (UTC)
- Interesting! From Vespine's post, I conclude that you must have been hanky trained as a child! And you're right, unconscious control would address the predator/pray situations I mentioned. This non-RS says "Experts say that you cannot or one is incapable of sneezing while at sleep." (With a quick google search, I couldn't find research on that, but I did find this related discussion.) But if it's true that we can't sneeze in our sleep, doesn't that negate the assumption that sneezing is vital to prevent us from suffocating? — Sebastian 16:44, 13 October 2009 (UTC)
Windmill? Wind turbine? Wind Widget?
The article windmill makes it clear that that term refers to a wind powered grinding mill. Wind turbine refers to a wind powered electrical generator. These two devices have something in common, a big spinny bit. What is the spinny bit called? I'm looking for a name that includes both windmills and wind turbines, but excludes other similarly appearing spinny bits, such as propellers.
Alternately, I'm asking this question. What is the name for a device which captures wind energy, regardless of what purpose that energy is channeled into?
gnfnrf (talk) 01:25, 12 October 2009 (UTC)
- Does this diagram help? Intelligentsiumreview 02:07, 12 October 2009 (UTC)
- They are called sails - see Windmill_sail. Exxolon (talk) 02:09, 12 October 2009 (UTC)
- They seem to be called "sails" on a windmill and "blades" on a wind turbine. I guess it depends on their shape and purpose; blades are designed to move a lot faster.--Shantavira|feed me 07:57, 12 October 2009 (UTC)
- As far as I can tell, it looks to me like the difference between a sail and a blade may be a matter of the construction. A sail is generally made of a flexible material attached to a rigid frame, whereas a blade is one solid rigid piece. So modern wind turbines uniformly have blades, old-style windmills have sails, and typical (relatively) modern windmills as were commonly found in the American West have metal blades. I'm not certain that's the defining distinction between a sail and a blade; I'm just making an observation based on how the terms are used in the windmill and wind turbine articles. Red Act (talk) 12:23, 12 October 2009 (UTC)
- They seem to be called "sails" on a windmill and "blades" on a wind turbine. I guess it depends on their shape and purpose; blades are designed to move a lot faster.--Shantavira|feed me 07:57, 12 October 2009 (UTC)
- The third sentence of the windmill article implies, without making it quite clear, that in popular parlance they all tend to be called windmills. If you read the whole article carefully, you'll see that the word is in fact used therein to refer to devices other than grist mills. I know that I've never heard the water-raising devices used on the American plains (as described in the section Windmill#In Canada and the United States) referred to as anything other than windmills; and the existence of articles such as Boardman's Windmill and List of drainage windmills in Norfolk suggest that usage isn't confined to grist mills in England, either. Deor (talk) 12:31, 12 October 2009 (UTC)
- In fact, the more I look at the lede of the windmill article, the more it seems to me dead wrong. If you look at the dictionary definition linked in note 2 of the article, you'll see that windmill is in fact the correct word for any "device which captures wind energy, regardless of what purpose that energy is channeled into." Deor (talk) 15:23, 12 October 2009 (UTC)
Mytoses question
In my Biology class, we are doing a experiment about cells and mytoses (or howrevr you spell it. There's a question I can't figure out, and the page here is to complicated for me. The question is "What two differences are apparent at the poles of plant and animals cells?" (during mitoses). I thought the difference was that there is only a cell wall in a plant cell, but not in a animal. But there have to be 2! I've already tried, could someone explain it to me? Im not aksing for you to gimme the answer, just to explain. Help would be appreciated! Warmly, --Amber. —Preceding unsigned comment added by 69.210.134.227 (talk) 02:04, 12 October 2009 (UTC)
- Mitosis -- you're sort of asking for the second difference. If you'd tell use what you don't understand about the second thing, we can explain it to you in easier-to-understand words. DRosenbach (Talk | Contribs) 02:30, 12 October 2009 (UTC)
It's spelled mitosis; please check out that article, it mentions at least two differences. — Sebastian 02:31, 12 October 2009 (UTC)- I checked the article -- and it doesn't specifically speak of two differences at the poles. Perhaps there are unmentioned differences, such as regarding the asters, the microtubal arrangements, the centromeres/-somes, etc. I'd hardly say that cleavage vs. cell wall formation occurs "at the poles." DRosenbach (Talk | Contribs) 02:33, 12 October 2009 (UTC)
- You're right - I just didn't read the question thoroughly. Your reply was better than mine anyway; mine was only there due to an edit conflict, so I am striking it. I do take exception to your editing my reply though; it was meant as a reply to the question, not to your reply, and I'm undoing that herewith. — Sebastian 03:38, 12 October 2009 (UTC)
- I checked the article -- and it doesn't specifically speak of two differences at the poles. Perhaps there are unmentioned differences, such as regarding the asters, the microtubal arrangements, the centromeres/-somes, etc. I'd hardly say that cleavage vs. cell wall formation occurs "at the poles." DRosenbach (Talk | Contribs) 02:33, 12 October 2009 (UTC)
Higher plants have neither centrioles nor their product centrosomes. Perhaps that's your answer - Draeco (talk) 04:47, 12 October 2009 (UTC)
Silver in a plastic cutting board - antimicrobial/antibacterial or just BS?
I see in the Silver Nitrate article that there are legitimate disinfection uses for it, but I'm having a hard time seeing how scattering a few silver (cat?)ions across a plastic cutting board can cut down on the nasties living thereon... despite what the bodacious labeling wants to scream at me.
Can someone clear this up? 218.25.32.210 (talk) 02:08, 12 October 2009 (UTC)
- Probably BS. I think any antiseptic properties would be short-lived at best. Either (A) the silver is covalently bound to the plastic which is permanent but doesn't allow it to interact with bacteria or (B) it's free to dissolve in water (which is the key to most medical uses of silver) making it possibly effective during the first use but subject to having all the ions washed away for subsequent uses. Having said this, I don't know of any real scientific evidence on cutting boards in particular, and I doubt it exists. Asking the manufacturer might be your best bet. - Draeco (talk) 05:04, 12 October 2009 (UTC)
- I don't know about this specific product or what material is used, and I wouldn't be surprised if a manufacturer replied with the same marketing BS (if indeed that's what it is). However, there is literature about the effectiveness of silver in this type of use. See [18] for example. DMacks (talk) 05:10, 12 October 2009 (UTC)
Abrasive toothpastes
If toothpaste (and probably dentist cleaners too) contain abrasives which are at least as hard as teeth, then what is to prevent it from wearing them down to nothing? (well, at least polishing all the way through the enamel) If I guess a molecule of enamel is at least 600pm, and you brush twice a day for 25,000 days that's 0.03 mm. The dentist probably does at least that much again with his tools and his goops. Add to that that many people have really fast toothbrushes instead of manual ones, and it's remarkable that they could put sand in it and still have it remove so little each time. Sagittarian Milky Way (talk) 02:53, 12 October 2009 (UTC)
- I'm no expert on dental care products, but you began with an "if" that might be important! How do you know those abrasives are "at least as hard as teeth"? Wouldn't it be smart to make them a little harder than plaque, but softer than tooth enamel? -- Scray (talk) 03:28, 12 October 2009 (UTC)
- I know for a fact that silica is harder than teeth and calcium phosphates are just as hard (Mohs scale 7 and 5 respectively). Carbonates, sufates, organics, some elements, and halides tend to be soft. It only has to equal the hardness of something to scratch it. Sagittarian Milky Way (talk) 03:53, 12 October 2009 (UTC)
- Actually, worn down enamel at the neck of the tooth is a very common problem caused by wrong brushing technique (too much force, to vigorous back-and-forth). To avoid it, follow best practices (little pressure, circular motion) and avoid brushing when the enamel has been weakened by recent acid contact (e.g. shortly after eating fruit). --Stephan Schulz (talk) 12:41, 12 October 2009 (UTC)
- This recent article[19] mentions that tooth enamel and dentin can repair themselves. Usually the body is constantly repairing small amounts of damage.Cuddlyable3 (talk) 14:25, 12 October 2009 (UTC)
Dentist here -- enamel and dentin will not repair themselves after having been worn away by overzealous toothbrushing. DRosenbach (Talk | Contribs) 23:01, 12 October 2009 (UTC)
- Somehow, I'd be too lazy to push either zealously or fast even if dentistry said it was better. I'd brush more often if that were the case. Sagittarian Milky Way (talk) 03:38, 13 October 2009 (UTC)
- I once asked my dental hygienist a question of this nature and she told me that teeth are organic and do regenerate themselves spontaneously. Assuming adequate health. Vranak (talk) 17:03, 12 October 2009 (UTC)
- Amazing, after all you hear about cavities you would've thought it was inert as a rock. Sagittarian Milky Way (talk) 20:00, 12 October 2009 (UTC)
- Suffice to say that there are many many people out there driving around very nice cars because of the widespread belief that only a dentist can keep your teeth from rotting away to stumps. Perhaps there is some truth to that notion but it's far from being the whole story. Vranak (talk) 22:45, 12 October 2009 (UTC)
- Tooth enamel "remineralizes" (so said the article on the main page for October 12th). I guess this is not the same thing as growing new enamel. I haven't been to a dentist for 20 years, still have all my teeth and they still seem good. Perhaps a dentist could give them a deep clean and make them better and likely to last longer, but as you say, very nice cars. —Preceding unsigned comment added by 81.131.7.241 (talk) 20:04, 13 October 2009 (UTC)
- I'm sure excessive use is harmful, as toothpaste manufacturers and the American Dental Association all give upper limits for the recommended amount of brushing. 66.65.140.116 (talk) 20:28, 12 October 2009 (UTC)
- The main component contributing to tooth abrasion is overzealous brushing, hence the name "toothbrush abrasion." Without enough force, the abrasive content of toothpastes will not wear away tooth structure, and with excessive force, toothbrush bristles will cause abrasion even without any paste at all. Thus controlling for both false negatives and false positives, it is the force of the brushing and not the abrasive that does it -- the abrasives may add to the effect, but the majority of brushing time finds the toothpaste already dissipated in large part. As for manual vs. electric toothbrushes, little force used to push the bristles of the latter against tooth structure doesn't add any forces that are not present with manual brushing. DRosenbach (Talk | Contribs) 23:01, 12 October 2009 (UTC)
- Let's back up a bit to discuss why toothpaste contains abrasives. During the day (or night) deposits build up on the teeth. Everyone gets a buildup of plaque, and some also get tartar. The abrasives are to wear those off. Beyond this, they may indeed wear off a bit of the enamel, but, as previously stated, it can regrow if it's worn down at a slow enough rate. And, even if your teeth are worn down too fast for this, as long as it's slow enough that you die before the enamel has a hole in it, then you will keep your teeth your entire lifetime, which is the goal, after all. I suspect that those who manage to wear their teeth down by brushing are suffering from an obsessive-compulsive disorder which causes more frequent and vigorous brushing than is recommended. StuRat (talk) 14:53, 13 October 2009 (UTC)
when is dQ different from dH?
I'm having a hard time separating these two concepts.
In addition the enthalpy article states dH = TdS which can be greater or equal than dQ?! John Riemann Soong (talk) 04:28, 12 October 2009 (UTC)
Also, I really don't get the equation H = U + PV -- how is enthalpy more than the internal energy, and why does an object having a finite volume against environmental pressure contribute to its enthalpy? John Riemann Soong (talk) 04:31, 12 October 2009 (UTC)
- Enthalpy is a defined value. It means absolutely nothing. The reason it was defined that way is to simplify expressions in constant-pressure processes, which is often what happens in research. Tim Song (talk) 05:18, 12 October 2009 (UTC)
- More specifically, pressure exerted on the walls of a container is itself a form of potential energy (it becomes kinetic when the walls blow out...) so even under constant pressure conditions there is potential energy which must be taken into account. The PV part of your enthalpy definition is that little bit of potential energy, which is added on to the potential energy internal to the molecules. It should be noted that internal energy is a finite and real, but immesurable quantity, a property that is passed on to enthalpy as well. Thus, we tend to deal in ΔH rather than H, since enthalpy changes should equal the total energy changes to a system as a result of a chemical change, so long as pressure does not change. In cases where the reaction vessel is open to the atmosphere, any minute pressure changes are "washed out" as the "system" becomes the entire atmosphere, and since lots of chemistry is done in open air, enthalpy is a convenient way to measure energy changes. In situations where you have a sealed reaction vessel, then enthalpy must also taken into account the changes in potential energy due merely to changes in pressure, complicating the calculations significantly. --Jayron32 06:06, 12 October 2009 (UTC)
Okay, so enthalpy is any internal energy plus that little bit of potential energy due to "previous" work done against atmospheric pressure? I'm also having a little problem with the derivation of dH.
So H = U + PV; dH = dU + PdV + VdP
since U = H - PV, then dU = dH - PdV - VdP; does dH - VdP = dQ?
I still don't know how to make sense of the difference between dH and dQ. How can the increase in enthalpy be greater than the increase in heat added? John Riemann Soong (talk) 06:45, 12 October 2009 (UTC)
- If the heat added also does work; for example, thermal expansion is a form of work. The confusing thing for a chemist is that chemists don't like to think about work as a form of energy. All chemists care about is the "q" factor; heat energy changes as measurable by temperature change. However, in situations where real work is done, then that ALSO has to be taken into account. PdV and VdP are the "work" factors in your equations. All of these factors are interrelated, so its a complete mess if you are trying to work out all of the details. For example, a decrease in internal energy could cause both changes in the surroundings temperature (a change in q) OR it could do work on the surroundings. You could also envision situations where a process is exothermic, but endergonic, that is work is done ON the system, but heat is release BY the system. For us simple chemists, if we ignore work, all of this mess goes away. --Jayron32 06:51, 12 October 2009 (UTC)
- Okay, yeah, I can do that with my specific situation equations ... (isobaric, isochoric, etc.) but I just want to know facts that hold universally. So, let's say I transfer 1 J of heat to a system from the environment ... the enthalpy can increase by 1 J and on top of that, work can also be done? How does that not violate some form of conservation energy principle? John Riemann Soong (talk) 07:20, 12 October 2009 (UTC)
- No, if you transfer 1 joule of energy from the system to the environment (dH = - 1), that energy can do both work and heat; in other words dW + dQ = - 1 Joule. For most common processes, dW is so close to zero it might as well be zero; however you aren't doing work ON TOP OF the heating of the environment. Its just that in some situations, releasing 1 joule of energy from a chemical reaction will not result in 1 joule of heating; it may result in MORE than 1 joule of heating (if the surroundings do work on the system WHILE the system is also heating the environment) OR it may result in LESS than 1 joule of heating (if the system does work on the surroundings WHILE the system is heating the environment). Remember that dQ and dW can be opposite signs. Ignore what Dauto says below about enthalpy not obeying the laws of conservation. Enthalpy does obey the laws of conservation; unless you ignore work. If you ignore work when you shouldn't, then you are introducing an error which makes it appear to not obey the laws of conservation. --Jayron32 18:32, 12 October 2009 (UTC)
- It doesn't violate energy conservation because enthalpy isn't energy (even though it is also measured in Joules). U is the internal energy that must be subjected to the internal energy conservation. From the equation H=U+PV you get dH = dU + d(PV) = (dQ - PdV) + (PdV + VdP) = dQ + VdP. And that's that. Dauto (talk) 15:00, 12 October 2009 (UTC)
- So wait -- as heat is withdrawn from a system enthalpy decreases faster than U does? I'm also trying to think of this in terms of heat capacity at constant pressure versus heat capacity at constant volume. Heat capacity at constant volume is less than heat capacity at constant pressure because of the heat transfer during a constant pressure process is diverted to work i? So at constant pressure, is the q that becomes part of U less than the q that the environment gave to the system?
- Also, how do I distinguish between pressure of the system and pressure of the environment? John Riemann Soong (talk) 16:45, 12 October 2009 (UTC)
- If the system is isolated from the environment, in a sealed container, than the two may have a different pressure. If the system is open to the environment, then you have the definition of a constant pressure situation, which is what is required for dQ to equal dH. If you did not have a constant pressure situation, then you would have two energies to keep track of; dQ and dW (heat and work). It really doesn't matter whether we say that dQ = dH - dW or dQ + dW = dH; that is conceptually it doesn't matter whether the work factor causes us to misestimate the enthalpy or the heat if we assume that dQ = dH. However, if the reaction is open to the surroundings, then no meaningful work is done (strictly speaking, work is almost always done, but when the denominator on the fraction is the moles of gas in the entire atmosphere, then for all intents and purposes that number is so small as to be meaningless). So, to answer your question again, the two pressures are the same unless you have a closed system, and in that case, you need to account the work factor in calculating the enthalpy (the PdV + VdP). --Jayron32 18:24, 12 October 2009 (UTC)
- Jayron, dH = dQ + VdP which is not the same as dQ + dW because dW = PdV
- OK, yes, you are right about that bit. Technically, VdP does not represent actual work, since nothing moves; however VdP is the potential energy change generated by the change in pressure; functionally it behaves like work in this case. Its much easier to think conceptually that there are two factors here; heat energy and mechanical energy. Mechanical energy has two forms; kinetic (work) energy (PdV) and potential energy (VdP). Any deviations between Q values and H values are due to mechanical energy changes, either kinetic or potential. The crux of the OP's problem is ignoring these mechanical energy issues. Since mechanical and heat energy could be the same sign OR opposite signs, the deviation between dQ and dH could be either positive or negative. --Jayron32 19:13, 12 October 2009 (UTC)
- I agree with everything you said except with the carachterization of PdV and VdP as being kinetic and potential energies. I don't see how that fits. Dauto (talk) 19:40, 12 October 2009 (UTC)
- Kinetic energy means something is moving. If the volume of a container is changing (a non-zero dV) then something must be physically moving, so it is kinetic energy. If there is no movement, but there is a change in pressure, then there is a change in the force on the walls of the container, and that change in force is a potential energy. To see that, imagine what would happen if the pressure, say, ripped a hole in the wall of the container. That would represent the conversion of that potential energy into kinetic energy. Increasing pressure increases the forthcoming kinetic energy involved in such a rupture, which is the definition of potential energy. So changes in volume are kinetic changes, while changes in pressure are potential changes. --Jayron32 20:31, 12 October 2009 (UTC)
- I agree with everything you said except with the carachterization of PdV and VdP as being kinetic and potential energies. I don't see how that fits. Dauto (talk) 19:40, 12 October 2009 (UTC)
- OK, yes, you are right about that bit. Technically, VdP does not represent actual work, since nothing moves; however VdP is the potential energy change generated by the change in pressure; functionally it behaves like work in this case. Its much easier to think conceptually that there are two factors here; heat energy and mechanical energy. Mechanical energy has two forms; kinetic (work) energy (PdV) and potential energy (VdP). Any deviations between Q values and H values are due to mechanical energy changes, either kinetic or potential. The crux of the OP's problem is ignoring these mechanical energy issues. Since mechanical and heat energy could be the same sign OR opposite signs, the deviation between dQ and dH could be either positive or negative. --Jayron32 19:13, 12 October 2009 (UTC)
- "So at constant pressure, is the q that becomes part of U less than the q that the environment gave to the system?"
- Yes, that's right. If you heat the gas at constant pressure, it will expand and do useful mechanical work on the environment, which means some of the energy you put in as heat is now gone from the system (for example off powering a generator), and not included in U. Change in enthalpy includes that work portion, which is why it's larger in this case than the actual energy that ends up in the gas. Rckrone (talk) 04:37, 14 October 2009 (UTC)
map distances and multiple crossovers
So let's say I have a cis genotype AB/ab (linked on the same chromosome) test-crossed with ab/ab and I'm supposed to find the amount of progeny that will end up AB/ab. If A and B are 10 m.u. apart, is this proportion 45% or 47.5% (or something a little larger than that?). Basically, if two genes are 1 m.u. apart, is the chance of no crossing over equal to 99%, or is that the chance of having parental type gametes? I'm trying to sort this out from the idea that the longer distances lead to underestimated recombination frequency. John Riemann Soong (talk) 06:39, 12 October 2009 (UTC)
- 1 map unit = 1% observed recombination. Therefore, given 100 meioses containing two loci 1 m.u. apart, one would expect to see 1 with a cross over event between the loci and the other 99 will not cross over. You should be able to apply this up to your experiment, which has two loci 10 m.u. apart. Bear in mind you would start off with half (50% is the value you would get with no crossing over at all) then subtract the percentage of those alleles that will have recombined between the two loci. Rockpocket 07:10, 12 October 2009 (UTC)
blood platelets
[Removed paraphrase of existing medical question.] APL (talk) 12:48, 12 October 2009 (UTC)
Time-matter conversion
I once read about some scientist's theory that said, among other things, that time and matter are just different forms of the same thing, much like heat and work are just different forms of energy. In this theory:
- Tachyons are the elementary particle that mediates time, just like the graviton would mediate gravity.
- When tachyons decelerate below the speed of light (I don't remember the exact process for this described in the paper), they "decay" into quarks, leptons and bosons, and when matter accelerates above the speed of light, it "decays" into tachyons. Therefore, c is not an absolute barrier, just a door between the realms of time and space.
- General relativity seems to preclude the transmission of information or matter above the speed of light; this is because it fails to consider the transformation from matter into time. Therefore, the only reason that matter cannot travel above the speed of light is because when it does it automatically becomes time.
I find it difficult to accept this theory, but because I have little knowledge of fundamental particle physics, I would appreciate it very much if someone could please tell me what is the observational evidence against the above theory. Thank you. --Leptictidium (mt) 13:08, 12 October 2009 (UTC)
- I don't think you need observational evidence against it - it just doesn't make sense. Time is the progression from cause to effect, it makes no sense to talk about it being mediated by a particle. --Tango (talk) 13:45, 12 October 2009 (UTC)
- I think the point here is to re-think what the definition of "time" is, so replying that "time" isn't what he says it is seems a little tautological. Again, I don't know the theory, but dismissing it just because "it doesn't make sense" in a very basic explanation seems silly to me, and unscientific. As one writer put it, the theory that the Earth sits on an endless series of turtles isn't wrong because it is ridiculous, it's wrong because we don't find any turtles at the South Pole... --Mr.98 (talk) 14:41, 12 October 2009 (UTC)
- Time is time. If you want to define a new concept you need to give it a new name. There is a difference between ridiculous and nonsense - the theory as described doesn't make sense, the Earth sitting on turtles makes perfect sense, it just happens to be wrong. --Tango (talk) 15:11, 12 October 2009 (UTC)
- I think the point here is to re-think what the definition of "time" is, so replying that "time" isn't what he says it is seems a little tautological. Again, I don't know the theory, but dismissing it just because "it doesn't make sense" in a very basic explanation seems silly to me, and unscientific. As one writer put it, the theory that the Earth sits on an endless series of turtles isn't wrong because it is ridiculous, it's wrong because we don't find any turtles at the South Pole... --Mr.98 (talk) 14:41, 12 October 2009 (UTC)
- A theory is scientific only if it has Falsifiability. This one doesn't. Cuddlyable3 (talk) 14:07, 12 October 2009 (UTC)
- That seems, uh, to be a little premature of a judgment, no? I mean, I don't know the first thing about this reported theory, but I do know that a lot of new theories and high-end physics sounds pretty silly and out-there for a non-practitioner, especially when it is new. --Mr.98 (talk) 14:39, 12 October 2009 (UTC)
- No. To clarify, my post did not conclude that the reported theory is wrong, just that it is not scientific i.e. ameanable to the scientific method. Cuddlyable3 (talk) 16:06, 13 October 2009 (UTC)
- That seems, uh, to be a little premature of a judgment, no? I mean, I don't know the first thing about this reported theory, but I do know that a lot of new theories and high-end physics sounds pretty silly and out-there for a non-practitioner, especially when it is new. --Mr.98 (talk) 14:39, 12 October 2009 (UTC)
- How could the speed of light be a "door"? It's a speed, not a door. In a diagram of space or time intervals, the speed of light is the locus of points that is identical in all frames of reference and separates definitely-space-like from definitely-time-like intervals; but this is not a "door". If you're looking for an analogy, consider it more of a wall. You might want to read the article spacetime for an overview. As has been pointed out, there's not observational evidence against these postulates because they don't make claims about observable phenomena. Nimur (talk) 14:14, 12 October 2009 (UTC)
- Where did you read this theory? And which scientists believe it?
- I don't ask to be contrary, I ask because the way you described it, it seems very confused. Perhaps if we could see the source... APL (talk) 14:33, 12 October 2009 (UTC)
- I wouldn't take very seriously any theory that depends on the actual physical existence of tachyons in order to make sense. It smells like crackpot to me. Dauto (talk) 16:35, 12 October 2009 (UTC)
- Er, why not? I mean, yeah, nobody has any evidence yet for tachyons, and they seem a little fishy, but there's no reason that one can't say, "if they exist..." and so on. Scientists have been doing that for a long time. (Remember that there was very little hard evidence for atomism at all until the early 20th century, yet it proved a pretty useful concept before then.) Again, I don't know about this purported theory at all... but I think dismissing things just because they sound weird is a little silly, given how weird the reality of things is (I think complementarity is pretty weird, but that doesn't mean it's wrong). --Mr.98 (talk) 18:20, 12 October 2009 (UTC)
- I wouldn't take very seriously any theory that depends on the actual physical existence of tachyons in order to make sense. It smells like crackpot to me. Dauto (talk) 16:35, 12 October 2009 (UTC)
- The observational evidence against any theory that says time and matter are interchangeable is that no-one has observed time changing into matter or vice versa. You would think the effects would be quite noticeable - "hey, I just lost 5 seconds and lost of tracks have appeared in my cloud chamber". Equivalence of work and heat is easily demonstrated; equivalence of matter and energy is demonstrated in every nuclear reactor; but there is no demonstration of the equivalence of matter and time. Gandalf61 (talk) 17:00, 12 October 2009 (UTC)
- In the early 20th century, many well regarded scientists said relativity was a crackpot theory. Edison (talk) 19:11, 12 October 2009 (UTC)
- True and irrelevant. Dauto (talk) 19:14, 12 October 2009 (UTC)
- I'm sorry that I can remember no more details: I read about the theory in a magazine in an English library and only remembered about it the other day when watching a documentary about M-theory, but I don't remember the author or the name of the theory. Leptictidium (mt) 21:05, 12 October 2009 (UTC)
- True and irrelevant. Dauto (talk) 19:14, 12 October 2009 (UTC)
Weather
I need some good weather websites. Anyone have some? Surface maps, radars, cool graphics, stuff like that. I would like that. Thanks! <(^_^)> Pokegeek42 (talk) 14:03, 12 October 2009 (UTC)
- Google is your friend. Entering "Weather forecast" gave[20] me 37 million "hits". Cuddlyable3 (talk) 14:10, 12 October 2009 (UTC)
- If you're interested in weather in the United States, you should check out the National Weather Service, http://nws.noaa.gov. Their website provides the most authoritative forecasts in the country (in fact, it is the source for most redistributed commercial forecasts); and you can also access much of the raw data, including maps, radars, satellite imagery, and atmospheric conditions data. Being both a government website, and a website run by scientists, the imagery has a little less gloss and veneer than you might be used to if you mainly pull from commercial weather websites... but that rustic rawness is scientific accuracy. Nimur (talk) 14:20, 12 October 2009 (UTC)
- Depending on what you need... Unisys or NRL TC might be useful. -Atmoz (talk) 16:21, 12 October 2009 (UTC)
- And don't forget Wunderground (a.k.a. "Weather Underground") at http://www.wunderground.com/ and the amazing Masters's blog [21]. Bielle (talk) 16:55, 12 October 2009 (UTC)
- Depending on what you need... Unisys or NRL TC might be useful. -Atmoz (talk) 16:21, 12 October 2009 (UTC)
- If you're interested in weather in the United States, you should check out the National Weather Service, http://nws.noaa.gov. Their website provides the most authoritative forecasts in the country (in fact, it is the source for most redistributed commercial forecasts); and you can also access much of the raw data, including maps, radars, satellite imagery, and atmospheric conditions data. Being both a government website, and a website run by scientists, the imagery has a little less gloss and veneer than you might be used to if you mainly pull from commercial weather websites... but that rustic rawness is scientific accuracy. Nimur (talk) 14:20, 12 October 2009 (UTC)
Age hardening of Mild steel under water
Could anyone please advise on this topic.
I am designing a Remote underwater drilling rig. I will drill Mild Steel (Grade 43 A) at 600 RPM, with a Diamond Tipped Rotary Drill. The current force I have calculated to drill throught the 6mm thk plate is 1.7kN. Do I need to concider the effects of Age Harding during this underwater drilling process or not. If so presumably the effects of Age-Hardening could increase the surface hardness of the Mild Steel to four times, is this correct?
Please confirm
Regards,
Lyndon —Preceding unsigned comment added by Longone02031966 (talk • contribs) 14:25, 12 October 2009 (UTC)
- I have some follow-up Q's for you:
- 1) How long has the mild steel been underwater ?
- 2) How deep ?
- 3) Is this ocean water ?
- 4) What is the temperature of this water ?
North Texas weather
Why is it rainier than usual?Accdude92 (talk) (sign) 15:06, 12 October 2009 (UTC)
- The extra 6 inches of rain (beyond the average) since September 1 appear to be due to a series of four heavy-rain days (as opposed to steady drizzle over the entire month). My guess is that these were all part of this front (visible in this satellite IR image). Take a look at climate and weather - explaining deviations from average values is not always possible. This is a pretty significant statistical variation, though. One really big weather system can knock off the statistics pretty strongly. Nimur (talk) 15:21, 12 October 2009 (UTC)
- It's all the more weird because it follows a record-breaking series of 100 degF days through the summer. SteveBaker (talk) 01:05, 13 October 2009 (UTC)
- You seem to be getting our rain! We had over fifteen inches of rain in July alone here in northern UK, and August was mainly wet, too, but the autumn is unusually dry here. We would gladly exchange climates! Dbfirs 08:55, 13 October 2009 (UTC)
- It's all the more weird because it follows a record-breaking series of 100 degF days through the summer. SteveBaker (talk) 01:05, 13 October 2009 (UTC)
- Texas weather has no "why". When I moved from Denton to Toronto, long about November sometime, it was a little bit chilly, maybe around freezing. So I went on the web and looked up Denton. It was eight degrees. Fahrenheit!!!. --Trovatore (talk) 09:47, 13 October 2009 (UTC)
Urinary Tract Infections
It has commonly been stated that human females, generally, are more susceptible to urinary tract infections. One reason would logically be the shorter length of the urethra tract of females, and it being closer to the anus compared to males, but my question is do you know of any components in urine that might differ from male to female resulting in males not being as susceptible as females. I know that in old age there seems to be an equal frequency of infection between men and women as stated on the wiki UTI page. It also states that women lack bacteriostatic properties secreted from the prostate in males. This is not referenced, and if that is right would that "property" be prostatic acid phosphotase (PAP)? Pjohnso8 (talk) 21:38, 13 October 2009 (UTC)pjohnso8 —Preceding unsigned comment added by Pjohnso8 (talk • contribs) 19:13, 12 October 2009 (UTC)
Time speed shift
In some days I have a quite strong feeling that the time, particularly, the minutes, run faster. Ultimately, the way which usually takes me say 30 minutes to walk, eats 35 min or so. Is there any explanation? 85.132.109.227 (talk) 19:39, 12 October 2009 (UTC)
- Our sense of time article is in sorry shape, but some of the reference links might be interesting, as might googling for Template:Websearch. --Sean 19:53, 12 October 2009 (UTC)
- Perception is a purely psychological phenomenon; that is such differences between expected time differences and actual time differences are entirely products of your own mind. The world itself is unchanged. It is a very common human trait to ascribe psychological effects to the world itself rather than to recognize them as purely internal processes. There is a real phenomenon where time for two people will pass at different rates, called time dilation, but that is a very different thing than what you are describing. --Jayron32 20:27, 12 October 2009 (UTC)
- Jayron32's phrases "products of your own mind" and "internal processes" should be interpreted liberally; some drugs alter the perception of time. Comet Tuttle (talk) 20:54, 12 October 2009 (UTC)
- As noted in this recent news story. --Sean 00:20, 13 October 2009 (UTC)
- The story is ok but the newsreaders' sniggering is juvenile. Cuddlyable3 (talk) 15:44, 13 October 2009 (UTC)
- As noted in this recent news story. --Sean 00:20, 13 October 2009 (UTC)
- Jayron32's phrases "products of your own mind" and "internal processes" should be interpreted liberally; some drugs alter the perception of time. Comet Tuttle (talk) 20:54, 12 October 2009 (UTC)
- Yes, but the drugs don't actually change the way time works. They change the way your mind works. That's the whole point. Doing drugs of this type doesn't expand your capacity for knowledge or wisdom, as was often claimed, it merely increased your own perception of your own knowledge or wisdom. You don't expand your consciousness, you just think you do. Nothing changes in the way the world works, just in how you perceive how it works. --Jayron32 02:39, 13 October 2009 (UTC)
KC135 boom
How long can the refueling boom on the KC135 be extended? Googlemeister (talk) 21:23, 12 October 2009 (UTC)
- This photograph of the boom operator's instrument panel has a dial labeled "Telescoping" which appears to range from 0 to 20 feet. It is not clear to me whether this is the full extended length or merely the extra length added by telescoping; also, the units ("feet") are obscured by the dial needle so I may be reading it incorrectly. Nimur (talk) 21:57, 12 October 2009 (UTC)
- I don't recall the actual length of the telescoping boom - 20 feet seems way too short. If you look at photos of the boom, it looks to be about as long as the vertical stabiliser fin is tall. The fin is 40 feet tall - so I'd guess the boom was at least that. I do know that the alternative 'hose and drogue' system used by some aircraft types (eg when refuelling two planes at once) extends to about 75 feet...so again, 20 feet for the boom system seems way too short. It's possible the dial is indicating how far one section of the telescoping boom is extended - rather than the total length. SteveBaker (talk) 00:56, 13 October 2009 (UTC)
- I think the US military uses metric units Metrication_in_the_United_States#Military. 20 metres would be about right, 65 feet or so. Our article on aerial refueling says the receiver pilot flies "directly below and 50 feet behind" the tanker, which matches up well. Franamax (talk) 15:44, 13 October 2009 (UTC)
- It's possible that it's in meters - but I rather doubt it. I have a kinda half-suspicion that the dial is telling the operator something much more important. I think that the center section of the boom is designed to telescope in and out in order to take up the slack between the tanker and the plane that's being refuelled. After all, neither of them can fly perfectly straight and level - and it would be expected that they would drift around and that center section would need to be able to telescope in and out. However, if the pilots ever got so close together (or so far apart) that they ran out of telescopability (is that even a word?) - then the boom might run into some kind of end-stop limiter - and it might get really nasty. So perhaps the guy on the boom station is required to watch that gauge and either yell out warnings on the radio - or perhaps manually disengage the boom - if the two planes get too far away from their optimum positioning. Now THAT distance could easily be as little as 20 feet. So out of a 60 foot boom (or whatever it is), it is easily possible that only 20 feet of it might be telescopic. SteveBaker (talk) 21:42, 13 October 2009 (UTC)
- I just took another look at the photo - and now I'm 100% convinced that my explanation above is right. The center section of the dial is marked with a green arc - with red markers at either end. That surely has to mean that so long as the telescoping of the boom falls between those two red marks, everything is OK - and that if it ever compresses so much that it's in danger of sticking and ramming itself through the pilot's windshield - or stretches so much that it's going to be yanked off of the plane - then you're outside of the green band. Even more convincing is that the danger zone on the full-extension side of the dial is smaller than the one on the left. That too would make sense since if the boom is stretched too far, it'll simply disconnect - but if it's squashed up more than it can handle - then there would be a hard collision with the refuelling plane - which could easily get someone killed. Hence, the dial is in feet - but that tells us nothing about the overall length of the boom. Oh - except that it must be at least 40 feet at fullest extension in order to allow 20 feet of telescoping with a single rigid sliding section. SteveBaker (talk) 21:50, 13 October 2009 (UTC)
- It's possible that it's in meters - but I rather doubt it. I have a kinda half-suspicion that the dial is telling the operator something much more important. I think that the center section of the boom is designed to telescope in and out in order to take up the slack between the tanker and the plane that's being refuelled. After all, neither of them can fly perfectly straight and level - and it would be expected that they would drift around and that center section would need to be able to telescope in and out. However, if the pilots ever got so close together (or so far apart) that they ran out of telescopability (is that even a word?) - then the boom might run into some kind of end-stop limiter - and it might get really nasty. So perhaps the guy on the boom station is required to watch that gauge and either yell out warnings on the radio - or perhaps manually disengage the boom - if the two planes get too far away from their optimum positioning. Now THAT distance could easily be as little as 20 feet. So out of a 60 foot boom (or whatever it is), it is easily possible that only 20 feet of it might be telescopic. SteveBaker (talk) 21:42, 13 October 2009 (UTC)
- I think the US military uses metric units Metrication_in_the_United_States#Military. 20 metres would be about right, 65 feet or so. Our article on aerial refueling says the receiver pilot flies "directly below and 50 feet behind" the tanker, which matches up well. Franamax (talk) 15:44, 13 October 2009 (UTC)
- I don't recall the actual length of the telescoping boom - 20 feet seems way too short. If you look at photos of the boom, it looks to be about as long as the vertical stabiliser fin is tall. The fin is 40 feet tall - so I'd guess the boom was at least that. I do know that the alternative 'hose and drogue' system used by some aircraft types (eg when refuelling two planes at once) extends to about 75 feet...so again, 20 feet for the boom system seems way too short. It's possible the dial is indicating how far one section of the telescoping boom is extended - rather than the total length. SteveBaker (talk) 00:56, 13 October 2009 (UTC)
Lump on penis
Time over distance...
... I have heard that clocks on the top of really tall buildings go through an hour a few minutes either fast or slower than a regular clock. But due to them being so high up, the time difference equals out so they match a regular clock on the ground. Is there any truth to this, if so, where can I find more information?
Thanks in advance!
74.218.50.226 (talk) 22:25, 12 October 2009 (UTC)
- No building on Earth is tall enough to experience any measurable time dilation from either the gravitational difference nor the net difference in rotational motion - certainly not minutes on the hour. Nimur (talk) 22:32, 12 October 2009 (UTC)
How about the buildings on other planets? Just kidding... I didn't think there was that big of a differance. Thanks!74.218.50.226 (talk) 22:38, 12 October 2009 (UTC)
- Not on other planets - but perhaps a tall building built on a neutron star might show some serious weirdness - but making a building more than a millimeter or two tall would be an impressive engineering feat! SteveBaker (talk) 00:47, 13 October 2009 (UTC)
Clocks at tops of buildings run very slightly faster than clocks at bottoms of buildings, due to gravitational time dilation. The difference is big enough to measure, but only if extremely precise equipment is used. The Pound–Rebka experiment, which was the first experiment to show this effect, took place in a building that wasn't even all that tall. The height difference between the bottom and top was only 22.5 meters (73.8 feet). Red Act (talk) 23:12, 12 October 2009 (UTC)
- Sorry, but it just sounds bogus. It is very surprising and counter-intuitive that there should be an easily measurable effect in such a small distance in such a gravitational field. Edison (talk) 03:40, 13 October 2009 (UTC)
- The original Pound-Rebka paper (1959) states that there should be a factor of 1.09x10-18 frequency multiplier for each centimeter above the earth's surface. The derivation seems dubious; the approximation seems more dubious; and the prospect of measuring an effect on the order of 10-18 even today, let alone in 1959, seems very dubious. Finally, the paper states a method for observing this effect - by observing hyperfine structure on nuclear gamma ray emission spectra (which can be measured very accurately) - but does not actually state that the gravitational redshift experiment has been performed. Thus the theoretical derivation of the frequency redshifting was not validated with experimental data. Nimur (talk) 04:01, 13 October 2009 (UTC)
- The 1960 followup paper, Apparent Weight of Photons, does explicitly claim to have completed experimental measurement. Again, I have to call "dubious" all over this paper - the introduction outlines their "systematic measurement errors" that they attempt to mitigate by what I would consider data cherry-picking (using only certain combinations of experimental results and measuring a delta); they compensate for the temperature shift by what appears to be an arbitrary multiplication; etc. I'm not a relativistic physicist; I know little about hyperfine structure of gamma ray spectra - but I am an experimental physicist - and I don't like claims that are buried so far below the noise floor that you have to subtract elaborate models of the noise to "find" your result. I think it speaks volumes that this work, published in the early 1960s, has not been brought up since then as a bastion of scientific method and empirical proof of relativity - it's been cited once or twice in five decades. The discerning wikipedian will probably want to read the paper series themselves and decide whether my harsh judgement of "dubious" is warranted; after all, these papers were peer-reviewed and published - but needless to say, the effect is miniscule if it is measurable at all. Nimur (talk) 04:14, 13 October 2009 (UTC)
- For context, Gamma ray spectrometer shows several plots from modern equipment (with about 12 bits of frequency resolution, or ~ 1000 "channels"). This is the top-of-the-line gear in 2009. To measure a frequency deviation of 10-18, one would need to pull about 64 bits (equivalent) of resolution - fifty years ago - out of a custom-built analog experimental apparatus. Nimur (talk) 04:29, 13 October 2009 (UTC)
- The 1960 followup paper, Apparent Weight of Photons, does explicitly claim to have completed experimental measurement. Again, I have to call "dubious" all over this paper - the introduction outlines their "systematic measurement errors" that they attempt to mitigate by what I would consider data cherry-picking (using only certain combinations of experimental results and measuring a delta); they compensate for the temperature shift by what appears to be an arbitrary multiplication; etc. I'm not a relativistic physicist; I know little about hyperfine structure of gamma ray spectra - but I am an experimental physicist - and I don't like claims that are buried so far below the noise floor that you have to subtract elaborate models of the noise to "find" your result. I think it speaks volumes that this work, published in the early 1960s, has not been brought up since then as a bastion of scientific method and empirical proof of relativity - it's been cited once or twice in five decades. The discerning wikipedian will probably want to read the paper series themselves and decide whether my harsh judgement of "dubious" is warranted; after all, these papers were peer-reviewed and published - but needless to say, the effect is miniscule if it is measurable at all. Nimur (talk) 04:14, 13 October 2009 (UTC)
- The original Pound-Rebka paper (1959) states that there should be a factor of 1.09x10-18 frequency multiplier for each centimeter above the earth's surface. The derivation seems dubious; the approximation seems more dubious; and the prospect of measuring an effect on the order of 10-18 even today, let alone in 1959, seems very dubious. Finally, the paper states a method for observing this effect - by observing hyperfine structure on nuclear gamma ray emission spectra (which can be measured very accurately) - but does not actually state that the gravitational redshift experiment has been performed. Thus the theoretical derivation of the frequency redshifting was not validated with experimental data. Nimur (talk) 04:01, 13 October 2009 (UTC)
- Pound-Rebka isn't some forgotten experiment that's been ignored by mainstream physicists. The experiment is widely referenced as being an important confirmation of general relativity in general relativity textbooks. For example, MTW, which is generally considered to be the "Bible" of general relativity, devotes more than two pages to the experiment (see pages 1056-1058). Other GR textbooks I happen to have that reference Pound-Rebka are "Gravity" by James Hartle, which devotes half of p. 118 to it, and "A first course in general relativity" by Bernard F. Schutz (see p. 120).
- The experiment didn't need to measure anything accurate to one part in 1018. The 10-18 is the relative amount of change per centimeter of height. But the apparatus had a height difference of 22.5 meters, so it was only necessary to measure a relative change of about 2.5x10-15.
- Here is a document by Dr. John Mester, a physics prof at your school, which refers to the Pound-Rebka experiment. So you could stop by his office and ask him about Pound-Rebka, if you're still dubious about it. Red Act (talk) 07:59, 13 October 2009 (UTC)
- I'll follow up on that lead. As I disclaimed earlier, I'm not an expert in this field - and the experiment did get published in a reputable peer-reviewed journal - so as much as I flail around shouting "dubious", my opinion is only worth so much. The Gravity Probe B mission, and the LIGO, also seeking to measure relativistic gravitational effects, also both suffer from tiny signal amongst huge noise. I think the ultimate answer here is that the OP's suggestion of "minutes per hour" is very far from reality; the predicted changes should be femtoseconds - which cannot be measured by even the most accurate atomic clocks. To measure these, it seems necessary to build a complex custom "device" and extrapolate a time dilation via a frequency shift. Nimur (talk) 11:47, 13 October 2009 (UTC)
- Here is a document by Dr. John Mester, a physics prof at your school, which refers to the Pound-Rebka experiment. So you could stop by his office and ask him about Pound-Rebka, if you're still dubious about it. Red Act (talk) 07:59, 13 October 2009 (UTC)
- I'd be really cautious about suggesting that the Pound-Rebka device needs 64 bits of precision to make a successful measurement. Remember, the experimenters don't need to measure the frequency from scratch. They just need an apparatus sensitive to minor differences in frequency — which the universe handily provides in the form of crystalline iron-57. It's the difference between measuring elapsed milliseconds between two events on the bench (trivial) and attempting to measure elapsed milliseconds since the start of the universe, twice, and taking a difference (ludicrous). TenOfAllTrades(talk) 12:38, 13 October 2009 (UTC)
- It took me an hour to write one lousy sentence, but I put that little factoid into our Isotopes of iron article. People with some actual understanding of the topic may wish to review my wording.[22] Franamax (talk) 16:51, 13 October 2009 (UTC)
- I'd be really cautious about suggesting that the Pound-Rebka device needs 64 bits of precision to make a successful measurement. Remember, the experimenters don't need to measure the frequency from scratch. They just need an apparatus sensitive to minor differences in frequency — which the universe handily provides in the form of crystalline iron-57. It's the difference between measuring elapsed milliseconds between two events on the bench (trivial) and attempting to measure elapsed milliseconds since the start of the universe, twice, and taking a difference (ludicrous). TenOfAllTrades(talk) 12:38, 13 October 2009 (UTC)
Y'all think you're so smart talking about gravitational redshift that you endded up missing the trivial answer to that question that a grandfather clock's period will change as you go up a building because the formula for the period of oscilation of a pendulum pendulum#Period of oscillation depends on the local acceleration of gravity that changes as you move higher up a building. Dauto (talk) 15:00, 13 October 2009 (UTC)
- Like the original poster, I vaguely remember hearing that the effect of gravitational time dilation is exactly canceled by the effect of the changing gravity on a pendulum clock. Unfortunately, unless I miscalculated, they only half-cancel—the change in the swing rate is half the change from time dilation. That only applies for small height differences (where both effects are negligible anyway) and only for pendulum clocks, of course. -- BenRG (talk) 19:47, 13 October 2009 (UTC)
Viscous damping by air slows a pendulum clock slightly. This is why pendulums often have sharp edges to minimise air friction. At the top of a building the air pressure is lower which contribures to a clock going faster. (But something is wrong with the clock if the time difference is as much as minutes in an hour.) Cuddlyable3 (talk) 15:38, 13 October 2009 (UTC)
- Air pressure changes over time just due to different weather - that variation is more significant than the change in air pressure for all but the tallest buildings. --Tango (talk) 16:56, 13 October 2009 (UTC)
- So how many experiments published in peer-reviewed journals in the 50 years since the original publication have managed to replicate the Pound-Rebka experiment? Science is not about citing some teacher or book writer who "believes" the result. For a miniscule effect buried down in the noise and rescued by post-hoc correction factors, actual replication is appropriate. Edison (talk) 17:49, 13 October 2009 (UTC)
- Edison, your excepticism is very healthy but in that specific case it is unfounded. Indeed, the Mossbauer effect effect, (which is the effect used in this experiment), can measure extremely small frequency shifts. This experiment is not bogus. Dauto (talk) 19:12, 13 October 2009 (UTC)
- The Mössbauer effect is sensitive to very tiny frequency shifts; the Pound-Rebka experiment is famous and cited by every relativity textbook; the theoretical prediction of time dilation follows directly from the equivalence principle; and it's been empirically detected in other ways (like the GPS). But looking at P&R's actual published data (top of page 340) I see why Nimur and Edison are complaining. It looks too noisy to justify even the claimed 10% accuracy of the result. -- BenRG (talk) 20:13, 13 October 2009 (UTC)
- Edison, your excepticism is very healthy but in that specific case it is unfounded. Indeed, the Mossbauer effect effect, (which is the effect used in this experiment), can measure extremely small frequency shifts. This experiment is not bogus. Dauto (talk) 19:12, 13 October 2009 (UTC)
October 13
The irregular dark spots on sidewalks
What are they and how are they formed? Thanks. Imagine Reason (talk) 00:55, 13 October 2009 (UTC)
- Very very old gum, actually. This is what you're talking about, right? Someguy1221 (talk) 01:15, 13 October 2009 (UTC)
- I thought it might be an urban legend. That's gotta be a lot of gum, though, coz most sidewalk blocks have quite a few of them each! 66.65.140.116 (talk) 19:59, 13 October 2009 (UTC)
- They could also be the imprints of fallen leaves: I've noticed that sometimes (perhaps when the cement of the sidewalk was recently poured) a fallen leaf will stain the sidewalk brown. Sometimes the outline of the leaf is unmistakably clear. (I think there's a sidewalk near me that displays this; perhaps I can take a picture tomorrow.) —Steve Summit (talk) 01:45, 13 October 2009 (UTC)
- An interesting opposite effect I've seen is bleaching of the sidewalk by acids in pine needles. --Sean 13:42, 13 October 2009 (UTC)
- Does this staining and bleaching occur on cement that's dried, too? 66.65.140.116 (talk) 20:00, 13 October 2009 (UTC)
- To tell whether your sidewalk spots ("pavement" spots for Brits) are from gum or leaves, here are some suggestions: Are they under a tree (then probably leaves) or where people gather, like bus stops, benches, corners, entrances to buildings, etc. (then probably gum). Gum spots tend to be black and relatively smooth at the edges, while leaf stains can be brown or other colors and have rough edges. StuRat (talk) 14:32, 13 October 2009 (UTC)
volume change in an isothermal process versus an adiabatic process
I'm trying to figure out which is more in magnitude ... and not being very successful at it? I'm using the ideal gas equation. Help! I get as far as -Int[nRT/V dV] = change in U and stuff, but just need some direction here. John Riemann Soong (talk) 06:15, 13 October 2009 (UTC)
- It's going to depend on what you consider to be "equivalent" adiabatic and isothermal processes. Comparing the volume change for an equivalent change in U doesn't make sense since U doesn't change in an isothermal process. We can compare them for an equivalent amount of mechanical work W done. At a given state, dW/dV = nRT/V regardless of what kind of process it is, so the infinitesimal change is the same. If we regard two processes where the low volume states are set equal, the adiabatic one will have to undergo a larger volume change, since it'll be cooler than the isothermal gas, and dW/dV will be lower. If the high volume states are set equal then the opposite is true.
- The work formula you have there is good for the isothermal case since T is constant. For adiabatic, the constant is PVγ = c, so . Rckrone (talk) 21:36, 13 October 2009 (UTC)
- If you're comparing the change in volume for an equivalent change in pressure, then the isothermal case requires the bigger change. As the volume increases, the adiabatic gas looses internal energy doing work so the pressure drops by more than for the isothermal case. Rckrone (talk) 22:10, 13 October 2009 (UTC)
symbols of restraint in women's fashion
Hi - I'm interested in the idea that some clothes and accessories worn by women symbolise helplessness and/or restraint. Some examples might be tight skirts, stilettos, chokers - and at the more extreme end of the scale, footbinding and neck rings. I'm also interested in the idea, once ascribed to Catherine MacKinnon, that all sex is rape -- of course this isn't literally true, and is it turns out, it was never made as a serious quote, but I do wonder about the fact that the females of so many mammals, with some exceptions, are statistically smaller and weaker than the males. Are the two things related? Were we more likely to breed if a male was able to run down and restrain a female? Did this result in weaker females being selected for? Is this why we have 'restraint-fashion'?
Have these ideas ever been seriously discussed? If so, I'd appreciate it if someone could let me know who and where.
sorry - I realise these ideas are sort of ugly, but it'd be great if we could discuss them without rancor.
Thanks all,
Adambrowne666 (talk) 06:28, 13 October 2009 (UTC)
- The rules of the RD say that this is not a forum for discussion and if the subject of the question is dry then this rule is usually adhered to; but when sex is the subject of the question the rules go out the door - just watch. Caesar's Daddy (talk) 07:03, 13 October 2009 (UTC)
- Fashions like leggings or mini-skirts are far less restricting than men's trousers for example, and therefore contradict your hypothesis. Currently womens fashion seems to be similar to the fashion that male Cavalier's wore centuries ago (high boots, big belts for example). 92.24.99.195 (talk) 12:10, 13 October 2009 (UTC)
- In any case, this probably belongs on the Humanities desk since it asks about cultural norms and sociological ideas. Nimur (talk) 13:34, 13 October 2009 (UTC)
- As for the hypothesis that most male animals rape the females, I don't think this matches observations, where most females exhibit considerable choice. Even if the males overpowered the females, the females still sometimes exert their own control by not ovulating or else rejecting (perhaps even eating) the offspring. StuRat (talk) 13:41, 13 October 2009 (UTC)
A young woman wearing a tight skirt was at the front of the queue when the bus arrived. She struggled to step up but her skirt was too tight. So she reached behind and loosed the zip, and tried again. Still she couldn't reach the step. So she loosened the zip some more to try again. But the impatient man behind her just picked her up bodily and put her in the bus. The woman turn furiously on him with How dare you touch my body when I don't even know you? The man answered I thought we were getting aquainted after you twice unzipped my trousers. Cuddlyable3 (talk) 15:21, 13 October 2009 (UTC)
I believe the idea was that all sex is rape in a society where woman are marginalized. I don't think Xena would be all that upset by... well... things of this nature.
Also, in The Second Sex, Ms. Beauvoir touches on the idea that all clothing is in fact bondage, a mutilating bridle that chafes the skin and burdens the senses. Vranak (talk) 15:33, 13 October 2009 (UTC)
- I recall reading someplace that the costume designers for the original StarTrek show went to a LOT of trouble to discover what kind of womens' clothing most attracted men. (I suspect I read it in one of Gene Roddenberry's biographies...but I'm not 100% sure.) It turned out that it didn't matter AT ALL how tight/restraining the clothing was - nor (to their surprise) how revealing it was. What attracted men most was how much it appeared that the clothing was likely to fall off at any moment. When you look at the costumes they produced with this in mind - you can see where they were going with that. SteveBaker (talk) 21:33, 13 October 2009 (UTC)
- I don't really believe that, even generally. To me it sounds like something either a feminist or a misogynist would make up, trying to deny or excuse responsibility for human actions. Females choosing who to mate with is commonly observed in many mammal species. A great example I saw recently was lionesses who sneak away from the pride to mate with solitary nomad males, even at risk of physical retribution. This has the obvious biological advantage of mixing the gene pool in groups where the alpha male does the majority of the breeding. Also helps mitigate the impact on the group if the Alpha male just happens to be sterile or have some other genetic abnormality, which could otherwise just about wipe out a whole generation if the alpha is otherwise fit and strong. Vespine (talk) 23:46, 13 October 2009 (UTC)
- Sorry i've kind of missed the point.. To answer the actual question, I think it is the opposite that is true. It isn't "females are weaker because males will mate with them easier" I think it is "males are stronger because females select the strong males to breed with". Vespine (talk) 23:51, 13 October 2009 (UTC)
- And before someone argues with me, I do mean "select" in the broad "natural selection" meaning, not the "females making individual personal choice" meaning. "Strong" males will tend to be fitter, healthier, better able to provide and protect, therefore make a better choice for mate. Females on the other hand are not chosen for strength but for fertility and other maternal qualities. Vespine (talk) 23:56, 13 October 2009 (UTC)
- Sorry i've kind of missed the point.. To answer the actual question, I think it is the opposite that is true. It isn't "females are weaker because males will mate with them easier" I think it is "males are stronger because females select the strong males to breed with". Vespine (talk) 23:51, 13 October 2009 (UTC)
- I don't really believe that, even generally. To me it sounds like something either a feminist or a misogynist would make up, trying to deny or excuse responsibility for human actions. Females choosing who to mate with is commonly observed in many mammal species. A great example I saw recently was lionesses who sneak away from the pride to mate with solitary nomad males, even at risk of physical retribution. This has the obvious biological advantage of mixing the gene pool in groups where the alpha male does the majority of the breeding. Also helps mitigate the impact on the group if the Alpha male just happens to be sterile or have some other genetic abnormality, which could otherwise just about wipe out a whole generation if the alpha is otherwise fit and strong. Vespine (talk) 23:46, 13 October 2009 (UTC)
- Yes, very good point, Vespine - I didn't think of that. Adambrowne666 (talk) 22:14, 14 October 2009 (UTC)
- I don't believe it either. Think Muslim garb vs. bikini. Imagine Reason (talk) 04:57, 15 October 2009 (UTC)
Physics
is C= 2F in [lens]? its no, but why? use n/v-1/u= n-1/r if n= 1.5 i.e. glass —Preceding unsigned comment added by Fantasticphysics (talk • contribs) 09:53, 13 October 2009 (UTC)
- The second formula is the thin lens formula. See Lens (optics). Depending what is meant by C, the first formula might be to find C = diameter of a spherical mirror. Cuddlyable3 (talk) 13:38, 13 October 2009 (UTC)
The sexual desire of post-op transexuals
Because they have lost their testes and do not have ovaries, does this mean they have no or a greatly reduced sexual desire? I recall hearing that they cannot orgasm. Perhaps taking female hormones results in desire, but I've heard that it may be normal for them to stop taking it after a while. 92.24.99.195 (talk) 11:40, 13 October 2009 (UTC)
- I believe they need to take hormones for the rest of their life if they expect to look like their chosen gender. If they stop, they will regress to "something in-between", and it's not a pretty sight. StuRat (talk) 13:26, 13 October 2009 (UTC)
- The OP must mean a male-to-female transexual. The article Eunuch cites Wille, Reinhard & Klaus M. Beier (1989), Castration in Germany. Annals of Sex Research, vol. 2, pp. 103–33 Convicted sex offenders who have been castrated are rare; a lack of testosterone and the consequent ability to better control their own libido does result in negligible recidivism. Cuddlyable3 (talk) 13:30, 13 October 2009 (UTC)
Does transexuals getting female hormones make a difference in this respect? 92.26.174.34 (talk) 19:38, 13 October 2009 (UTC)
- In the best study I can find, transsexual male-to-females had a 34% incidence of decreased libido, which was more prevalent than in true females (23%) but not statistically significant. Libido is (controversially) thought to correlate with serum testosterone levels, even in women. The transsexuals' testosterone levels were lower than true females on average, but their testosterone levels did not appear to correlate with their libido (as it did in true females). This is according to Elaut E; De Cuypere G; De Sutter P; Gijs L; Van Trotsenburg M; Heylens G; Kaufman JM; Rubens R; T'sjoen G. Hypoactive sexual desire in transsexual women: prevalence and association with testosterone levels. European Journal Of Endocrinology 2008 Mar; Vol. 158 (3), pp. 393-9. - Draeco (talk) 17:03, 14 October 2009 (UTC)
What is TRAIL PCR?
What is TRAIL PCR? My Google-fu is weak today :/ ----Seans Potato Business 12:52, 13 October 2009 (UTC)
- Without some context, there isn't much we can do... Are TRAIL and PCR useful? --Tango (talk) 13:03, 13 October 2009 (UTC)
Medicare catheters
In the US there are TV ads for catheters that say Medicare formerly only provided 4 a month and now provides 200. Why the huge change ? Can't they be sterilized and reinserted ? This seems to run counter to recent attempts to contain exploding medical costs. Not a request for medical advice as I don't know anyone who uses these. StuRat (talk) 15:45, 13 October 2009 (UTC)
- U.S. Medicare policy change in catheter guidelines Improves patient care in home and hospice setting. Apparently it's a convenience, not a necessity, to have a fresh catheter each time. Nimur (talk) 16:06, 13 October 2009 (UTC)
- Cost reduction based on reduced UTIs. The cost of a UTI involves a doctor visit, lab culture, prescription and follow-up lab culture. hydnjo (talk) 18:23, 13 October 2009 (UTC)
TV ad?
Sorry to sidetrack, but was it a political ad, or do they seriously advertise catheters on TV in the USA? ("Buy now and get 200 for the price of 150!") AlmostReadytoFly (talk) 17:49, 13 October 2009 (UTC)
- Serious ad, yes sir. But it's not a discount price. There are lots of home-medical-care ads, and one of their selling points exactly is that it's a reimbursable or covered cost. Some companies even advertise that they will help with the medicare/insurance paperwork. "Why not buy up to the covered limit? It's not really costing you and you'll appreciate having them" is the message. DMacks (talk) 18:33, 13 October 2009 (UTC)
- And then what? Sell them on eBay? Stockpile medical supplies just in case you ever need them and the local hospital is BYOC? AlmostReadytoFly (talk) 18:42, 13 October 2009 (UTC)
- Why would you expect health insurance to cover a cost that is not related to a diagnosed actual need? Again, it's not a special sale targetted to the general public buying with their own money. DMacks (talk) 18:49, 13 October 2009 (UTC)
- The ads I have seen were catering to people who already needed urinary catheters for at home medical reasons. The point was that Medicare at that time required these patients to sterilize and reuse catheters many times per month, while the advertised company would gladly sell you a month's supply of use-once and discard sterile catheters. Hence it catered to reducing people's fear of infection and increasing their convenience. A niche market certainly, but not at all crazy. Dragons flight (talk) 19:06, 13 October 2009 (UTC)
- Ah, now I understand. Thanks. AlmostReadytoFly (talk) 19:10, 13 October 2009 (UTC)
- Sorry if I came across too snarky. DMacks (talk) 19:39, 13 October 2009 (UTC)
- Not in the slightest. I was too baffled by the basic concept of advertising "all-you-can-claim" medical equipment on TV to work out what to expect. AlmostReadytoFly (talk) 20:43, 13 October 2009 (UTC)
- Sorry if I came across too snarky. DMacks (talk) 19:39, 13 October 2009 (UTC)
- Ah, now I understand. Thanks. AlmostReadytoFly (talk) 19:10, 13 October 2009 (UTC)
- The ads I have seen were catering to people who already needed urinary catheters for at home medical reasons. The point was that Medicare at that time required these patients to sterilize and reuse catheters many times per month, while the advertised company would gladly sell you a month's supply of use-once and discard sterile catheters. Hence it catered to reducing people's fear of infection and increasing their convenience. A niche market certainly, but not at all crazy. Dragons flight (talk) 19:06, 13 October 2009 (UTC)
- Why would you expect health insurance to cover a cost that is not related to a diagnosed actual need? Again, it's not a special sale targetted to the general public buying with their own money. DMacks (talk) 18:49, 13 October 2009 (UTC)
- And then what? Sell them on eBay? Stockpile medical supplies just in case you ever need them and the local hospital is BYOC? AlmostReadytoFly (talk) 18:42, 13 October 2009 (UTC)
Very large object
Some years ago, out of idle curiosity, I did a google search for "largest object in the universe", or a similar phrase. What this turned up was a long page about astronomy that covered many topics. Somewhere in the dense text it told me about the object in question, which was referred to by a codename consisting of letters and numbers. I think "object" here refers to things like stars, rather than things like galaxies. Wading through the technical information, I established that this object was:
- Very, very far away
- Problematically large
- Inexplicably toroidal
Rather than doing any more searches, I just left it at that and went away with the pleasing impression that God is a giant doughnut. Today I want to know more about this object. Do we have a page on it? 81.131.7.241 (talk) 18:34, 13 October 2009 (UTC)
- A quick Google search suggests that a giant blob is a good candidate for "largest thing". It fails your "things like stars rather than galaxies" criterion, but I'll note that "star" is wholly incompatible with what modern astronomy considers "very far away". For example, VY Canis Majoris is the largest known star but it's practically on our doorstep, less than 5000 light years distant. If you prefer an intermediate biggest object, the black hole at the center of quasar OJ287 is 18 billion solar masses -- a galaxy, give or take. — Lomn 19:06, 13 October 2009 (UTC)
- OJ287 is an impressive thing and may have been what I read about. Perhaps at the time it seemed inexplicably doughnut shaped, before it was explained and found not to be. 81.131.7.241 (talk) 19:54, 13 October 2009 (UTC)
- See Dunkin' Donuts. Bus stop (talk) 18:42, 13 October 2009 (UTC)
- If you ignore the "star-like and not galaxy-like" definition, and instead focus on an object being any gravitationally-bound collection of matter, then the Sloan Great Wall, a massive collection of galaxies known as a galactic filament, is the largest known "structure" in the universe. If you want the largest identified star in our galaxy, then VY Canis Majoris is the largest, it is about 2000x as massive as our sun. We don't have the ability to resolve the size in other galaxies, though individual stars have been located and identified in other galaxies, such Cepheid variable stars; however I am not sure if these have been accurately sized. The so-called "blob" referred to above is a type of Lyman-alpha blob, a class of galaxy-sized, unorganized diffuse hydrogen clouds, though these are also probably more "galaxy-like" objects than "star-like". --Jayron32 19:23, 13 October 2009 (UTC)
- I only put the "star not galaxy" bit in because, thinking about it, I couldn't see why it would be surprising for a galaxy to be toroidal, or why even an unusually large galaxy should raise questions about how it came to exist. Maybe it wasn't anything like a star. Oh, I remember that it was known to be toroidal by watching how it obscured other things passing behind it. (Or gravitational lensing, maybe?) So I guess it was a dark object, whatever it was. 81.131.7.241 (talk) 19:38, 13 October 2009 (UTC)
- I would say that the largest known structure in the universe is probabily the CMB cold spot, that is if voids are acceptable... Dauto (talk) 20:06, 13 October 2009 (UTC)
- Whoa. Does anyone know if a specific word/phrase has been coined to describe the feeling of awe combined with the sad realization of the utter insignificance of one's own existence that I just felt when reading about the large-scale structure of the cosmos? --Kurt Shaped Box (talk) 20:31, 13 October 2009 (UTC)
- I've had it. Does that count? 90.208.3.84 (talk) 20:39, 13 October 2009 (UTC)
- I don't know about a name for it, but the Total Perspective Vortex is a device to induce this feeling. Rckrone (talk) 20:42, 13 October 2009 (UTC)
- Whoa. Does anyone know if a specific word/phrase has been coined to describe the feeling of awe combined with the sad realization of the utter insignificance of one's own existence that I just felt when reading about the large-scale structure of the cosmos? --Kurt Shaped Box (talk) 20:31, 13 October 2009 (UTC)
- The real problem at the heart of this question is the definition of the word "thing" and the definition of "largest". Assuming we really mean "biggest in volume" rather than "most massive", that helps a bit - and we only have to worry about what a "thing" is. There are many possibilities - distinguished only linguistically - and not scientifically:
- If a collection of solid objects like (say) a solar system (comprising of a star, some planets, some moons, many asteroids and comets, a bunch of dust and gas and a heck of a lot of vacuum) is a "thing" - then so (presumably) is a galaxy, a galactic cluster, an the entire universe itself. The largest thing in the universe is the universe. You could argue that this doesn't count - but then you're just down to who can invent a noun describing the largest number of somewhat related galaxies that doesn't include the entire universe? It's a meaningless limit...it's just down to what words you want to use.
- But if you don't allow collections of objects to be a 'thing' - then you're down to looking at stars, black holes and such like - but what about dust clouds? Are those 'things'? Or are they collections of little bits of dust? If a dust cloud can be a 'thing' but a galaxy cannot - then they are the biggest things around because they are vastly larger than stars.
- If you disallow dust clouds then we really are looking at things like stars and black holes. But strictly speaking, a black hole can't be the largest thing in the universe because it's really a zero-sized singularity - making them the smallest things in the universe - not the largest! You have to include the event horizon - but is that a 'thing'? It's not solid - and in some cases, you could cross one without ever being aware of having done so.
- So if you rule out black holes - then you're really down to stars. So what is the largest star? VY Canis Majoris appears to be the winner (out of all of the stars we could reasonably measure). There will probably be a mathematical limit on the biggest possible star anyway: If the star is very dense - and large - then it'll collapse into some sort of neutron star or a black hole or something; If the star is very large but not very dense - then it won't be able to sustain fusion, the mutual gravitation will pull it back together - and it won't be very large anymore. So there must be limits - we could calculate that limit and when we find any star that's that big, we can say that we have at least one of the largest 'things' in the universe.
- There are other possibilities: You could argue that nothingness is a "thing". After all, we talk about the Grand Canyon as if it were a thing - when it's really a very, very big lack of rock and dirt! So how about the voids between galaxies? If we were to call the void between galaxies by some cute name "The intergalactic rift" - then the intergalactic rift would easily take the prize.
- So - how you define the word "thing" is the entire question here. It's not science - it's linguistics. SteveBaker (talk) 21:13, 13 October 2009 (UTC)
Back to the original question. You say it had a "code name" — almost certainly, the name followed the standard convention of simply giving the coordinates of the object, preceded by some letters specifying the type of object or the catalogue in which it appears. The largest objects that carry such names are clusters of galaxies. I'll try a shot in the dark: How about the dark matter ring in the cluster of galaxies Cl0024+1654? Not really the largest object in the Universe, not problematically large (and quite possibly not even real), but at least it's toroidal. --Wrongfilter (talk) 22:52, 13 October 2009 (UTC)
- These sorts of questions lead me to strange (poss. nonsensical) ponderings. If the universe is indeed infinite - does that mean that it may contain an object (somewhere) that is of infinite size and infinite mass? --Kurt Shaped Box (talk) 22:59, 13 October 2009 (UTC)
Lake at the bottem of the Ocean
i was watching the Discovery channel and there was a show going on where thay where exploring deep uncarted areas of the ocean. in the exploration thay came apon what looked like a lake at at the bottem of the ocean, and after thay disidended to try and desend into it it was so dence that the substance just rippled and was to dence for them to go into. i was wandering what this lake was and if there are any articles on it. --Talk Shugoːː 20:42, 13 October 2009 (UTC)
- Might it have been a Brine pool? --Kurt Shaped Box (talk) 20:54, 13 October 2009 (UTC)
that sounds like your right, because thay mentioned alot of sea life serounding it. the pool was a black color aswell. thanks that pool had we bumb founded for a long time. --Talk Shugoːː 17:10, 14 October 2009 (UTC)
exothermic reaction with iron powder
Hello, In an exothermic reaction involving iron powder, cellulose, water, activated carbon, vermiculite and salt (like in a disposable hand warmer), which ingredient would you change to increase the average/max temperature of the reaction? How much or how little would you have to change it per degree of temp change? paddleballnut (talk) 21:38, 13 October 2009 (UTC)
- Well, question 1 you would have to answer would be to find the balanced chemical equation for this reaction. Without that, you cannot figure out the rest. --Jayron32 02:25, 14 October 2009 (UTC)
October 14
H1N1 vulnerability after infection?
My local television news just aired an interview with a studio staffer who had recently recovered from H1N1. According to the producer, he believed that he was still vulnerable to the virus despite having just fought it off; no explanation was offered for this statement. How could this be possible? Or is the staffer simply mistaken? I couldn't find anything on our article about the virus; I can't imagine how immunity would not be conveyed by having the infection. Nyttend (talk) 03:13, 14 October 2009 (UTC)
- According to our article on the influenza vaccine, each particular vaccine cocktail is only good for about a year. Since that's largely due to mutation, I'd guess similar caveats would apply to folks who'd had the actual flu (i.e. yes, you could get it again next year if you'd like). This brings up the basic problem of what is meant by "same" when it comes to something that mutates as quickly as the flu bug does. Compound that by the fact that most infections and diseases are not properly identified in a lab and you're left with the unhelpful non-answer of "If he did get it again, how would he know? Matt Deres (talk) 03:38, 14 October 2009 (UTC)
- I don't think it is really mutation like that. This year's seasonal flu isn't a mutated version of last year's, it is a different strain (well, combination of strains) that has reached significant levels. Immunity to the current pandemic strain of H1N1 should offer at least partial immunity to mutated versions of it, unless you get a really rapid mutation (which is possible, but unlikely), but it won't necessarily offer immunity to other strains of flu (including other strains of H1N1 - that code refers to a whole family of influenzas). However, as you say, the current strain is just a strain of flu like any other strain of flu, without detailed lab tests there is no way to tell it apart. Unless he was actually tested there is no way to know he ever actually had the pandemic strain and even if he did he could easily catch a different strain of flu in the future. --Tango (talk) 08:42, 14 October 2009 (UTC)
- If I remember rightly, the TV guy said something like "I could still get it again"; it was definitely an imprecise statement such as this. I do know that he was tested and was told that the lab confirmed that it was H1N1. Nyttend (talk) 18:07, 14 October 2009 (UTC)
- Well, what it means is he could get the flu again, and he could even get H1N1 Influenza A again. But it is unlikely he will get this one strain of H1N1 flu (the 2009 Swine flu) again. Look at it this way. Influenza describes a grouping of viruses which, on the Linnaean scale, would be something like Class. Influenza A would be something like a Order and H1N1 Influenza A would be something like a Family. See, even something like "H1N1" describes a large grouping of related, but distinct, viruses. Specific strains of H1N1 would be something like at the genus or species level, and vaccines are specific to the specific strain only. In fact, the standard cocktail of vaccines given every year to combat the "seasonal flu" usually contains some vaccines against some strains of H1N1 flu, just not the one specific strain being called the "swine flu". Since that strain was only discovered this past spring, it did not have time to make it into that cocktail of vaccines, so a seperate vaccine has to be initiated to catch it. Had the virus been discovered a few months earlier, it likely would be part of the standard annual seasonal flu shot. --Jayron32 20:03, 14 October 2009 (UTC)
- If I remember rightly, the TV guy said something like "I could still get it again"; it was definitely an imprecise statement such as this. I do know that he was tested and was told that the lab confirmed that it was H1N1. Nyttend (talk) 18:07, 14 October 2009 (UTC)
- I don't think it is really mutation like that. This year's seasonal flu isn't a mutated version of last year's, it is a different strain (well, combination of strains) that has reached significant levels. Immunity to the current pandemic strain of H1N1 should offer at least partial immunity to mutated versions of it, unless you get a really rapid mutation (which is possible, but unlikely), but it won't necessarily offer immunity to other strains of flu (including other strains of H1N1 - that code refers to a whole family of influenzas). However, as you say, the current strain is just a strain of flu like any other strain of flu, without detailed lab tests there is no way to tell it apart. Unless he was actually tested there is no way to know he ever actually had the pandemic strain and even if he did he could easily catch a different strain of flu in the future. --Tango (talk) 08:42, 14 October 2009 (UTC)
A friend of mine actually has the swine flu and she says that she has gotten sick twice. It's been over two weeks now, and she's still very sick. I saw her after a week and she looked fine, then she got really sick again. Maybe it can relapse and then return, like malaria? It's also common to catch a cold after you catch the flu, due to your weakened state. That happened to me once. So that could be another explanation. Swine flu sounds like a very bad virus. Her husband and her brother are both in the hospital right now because of the pneumonia brought on by swine flu. So, I imagine her immune system must be pretty weak right now. I'm terrified of swine flu!--Drknkn (talk) 07:45, 15 October 2009 (UTC)
- It could be a relapse (don't overdo it as soon as you start to feel better!) or it could be really bad luck and she's gotten ill twice in a quick succession. Don't be terrified - it really is just the flu. Unless you have an underlying medical condition the chance of you having any complications is really low. --Tango (talk) 11:07, 15 October 2009 (UTC)
Big Bang
Where did Georges Lemaître first use the phrase "a day without yesterday" ? Was it in the 1927 paper or the 1931 letter to Nature, or somewhere else ? Lord Labak Daas (talk) 07:42, 14 October 2009 (UTC)
- I don't have access to the 1927 paper, but in the 1931 letter to Nature, which I do have, he does not use the phrase. The closest he gets is to say that "If this suggestion is correct, the beginning of the world happened a little before the beginning of space and time." --Mr.98 (talk) 14:42, 14 October 2009 (UTC)
- This book about him says: He would later refer to this ultimate origin in his 1950 collection of essays The Primeval Atom as "the now without a yesterday", which has been translated as "the day without yesterday", a quote often associated with Lemaître's letter to Nature. --Sean 15:35, 14 October 2009 (UTC)
Antimatter fuel
Does matter/antimatter collision produce enough energy that it could be a viable power source for applications such as space travel once technology is developed to produce antimatter at a significantly lower cost? --Jean-Luc Pikachu (talk) 16:29, 14 October 2009 (UTC)
- It produces enormous amounts of energy. The trick is producing antimatter using less energy than would be created - that is rather difficult. --Tango (talk) 16:37, 14 October 2009 (UTC)
- See Antimatter rocket and the website How Stuff Works. —Preceding unsigned comment added by Nigelpackham (talk • contribs) 16:39, 14 October 2009 (UTC)
- Antimatter utterly annihilates matter, converting all of the mass into energy. Mass-to-energy is given by , which yields joules if mass is given in kilograms and the speed of light is given in meters per second. The speed of light is 300,000,000 meters/second, so 500 grams of antimatter "exploded" with 500 grams of matter (1 kg total) would produce 90,000,000,000,000,000 () joules, approximately equivalent to a nine thousand-megaton nuclear bomb, and enough energy to run a 100-watt light bulb for almost 30 million years. In reality, a good portion of the energy would be lost to neutrinos, but yes, antimatter would make a fantastic energy source, assuming 1) we can find a way to produce it cheaply, and 2) we can find a way keep it from spontaneously destroying itself (and everything else around it for a very long distance). J.delanoygabsadds 16:43, 14 October 2009 (UTC)
- Since the previous posts didn't say it, I will: there is no prospect of antimatter being a viable fuel in the foreseeable future. Our antimatter article says: "According to CERN, only one part in ten billion of the energy invested in the production of antimatter particles can be subsequently retrieved." There are some schemes floating around to harvest it from cosmic ray interactions with the solar wind, but they are all extremely speculative. --Sean 16:56, 14 October 2009 (UTC)
- Being a viable fuel and being a viable energy source are two different things. Obviously it's not a viable energy source since there's not really antimatter sitting around and creating it necessarily takes at least as much energy as it would release when annihilated. But as a way to efficiently store energy for vehicles where carrying around bulky fuel is an issue, it has the highest usable energy content per mass possible if the problems of creating it and storing it could be addressed. Rckrone (talk) 17:41, 14 October 2009 (UTC)
- Basically, unless you can find a big pile of antimatter somewhere - AND figure out how to collect it - AND figure out how to store it without spontaneous annihilation with the walls of the container, then you aren't going to be able to use the stuff. It seems unlikely that antimatter exists anywhere in the universe in a 'natural' form...and if it does exist - it's pretty clear it won't be in our galaxy. So we fail at the first hurdle there - there isn't any of this stuff just lying around! We can make tiny amounts of the stuff - but (as others have pointed out) the amount of energy that takes is spectacular. So antimatter as either a primary fuel - or as a way to store energy is pretty much a non-starter, and is likely to remain that way for a very long time to come. However, IF you had a means to produce it with more like 100% efficiency than 0.0000000001% efficiency (which is about what we have right now) - and a way to store it (presumably in some kind of magnetic containment arrangement) - then it would certainly be the densest possible way to store energy - which (in principle) makes it useful for spaceflight - or aircraft or even cars. But we're just so very far from being able to do that - we have to say it's "impossible" until we know whatever it is that we don't already know! SteveBaker (talk) 17:49, 14 October 2009 (UTC)
- An exotic application like powering interstellar flight might be one of the earlier things it could be used for, and that is not near term. Might have weapon applications as well. With respect to practical applications of antimatter, we are at the level of people experimenting with static electricity in the 1700's and speculating about electricity's possible use to run motors, for fast communication, or for lighting. Theoretically possible but not even close to practical. Edison (talk) 19:06, 14 October 2009 (UTC)
- That's not entirely true. The 'P' in PET scan stands for positron, a form of anti-matter. Dauto (talk) 19:40, 14 October 2009 (UTC)
- In a PET scan, we are not technically creating antimatter. We are letting an element undergo beta decay. J.delanoygabsadds 21:00, 14 October 2009 (UTC)
- Which bit of Steve's post does that contradict? A few positrons is a tiny bit of antimatter and we use a large amount of energy (in the particle accelerators you mention) to make it (indirectly). --Tango (talk) 12:35, 15 October 2009 (UTC)
- That's not entirely true. The 'P' in PET scan stands for positron, a form of anti-matter. Dauto (talk) 19:40, 14 October 2009 (UTC)
ko kaaf
I want to know a little about the "Kohkaaf". given the name of the place/home land of Ghost(jin). Please tell me its answer. Thanks Mohsan saleem —Preceding unsigned comment added by Mohsan saleem143 (talk • contribs) 18:00, 14 October 2009 (UTC)
- The name is usually transliterated as Koh-e-Qaf (Persian: کوہ قاف), which refers to the Caucasus mountains. See Paristan. Red Act (talk) 18:18, 14 October 2009 (UTC)
Global warming vs. record lows/snowfall
I am getting tired of my friends telling me that because their town in Saskatchewan just had a record snowfall, ipso facto global warming is made up. Is there a response for this specific kind of reasoning? Gohome00 (talk) 19:39, 14 October 2009 (UTC)
- Global warming is a climatic effect, not a weather effect. See climate and weather for some differences. The big deal is that climate is the average atmoshperhic conditions over a long period of time. Weather is what is happening in one specific place at one specific point in time. Weather says "It's raining now". Climate says "It rains here a lot". The deal is, global warming says that, on average, the earth is warming up. On a local level, in specific places, on specific days, you can still have cold weather. Global warming does not mean that it will never be cold ever again anywhere. It does mean that there will be less cold days in any given period of time (measurable probably over a year or a decade); and that those "cold" days are a few degrees warmer than cold days used to be. The deal is, that things like polar ice caps grow and shrink very slowly, on the order of decades or centuries, so they will respond to conditions on the scale of decades or centuries, which is why we care about climate rather than weather. So, just because it snows in Saskatchewan today doesn't mean that global warming isn't happening. What you would need to look at is the average temperatures in Saskatchewan over a long period of time, and see what the general trend is; in the case of climate a moving average is probably the best way to judge this. --Jayron32 19:50, 14 October 2009 (UTC)
- You can also direct them to the Climate Normals compiled by the Meteorological Service of Canada. They might be interested in looking at local trends over the span of decades, rather than specific days, years, or weather events. Note the important difference between local and global climate, also. I would also like to point out global climate change as opposed to global warming - which are related but distinct phenomena. Nimur (talk) 19:59, 14 October 2009 (UTC)
- Riding on what Nimur said, in my neck of the woods (Central NC), a lot of people are rejecting the Global Warming phenomenon and discussing instead Global Climate Change. Global Warming makes it sound like the entire globe is going to heat up. On average, it will, but while it may get hotter in country X, it may get to be a mini-ice age in country Y. Also, Global Warming doesn't begin to cover the ideas of droughts and floods, which are also cited as being major factors associated with this event. Falconusp t c 22:13, 14 October 2009 (UTC)
- Am I alone in reading Opie's question as How do you argue against an arguer taking statistically insignificant facts and using them as evidence?"...He asked about this specific kind of reasonining, not this argument. 90.208.3.84 (talk) 23:14, 14 October 2009 (UTC)
- A response to the OP's tiresome friends is to invite them to read the article Statistical significance. Cuddlyable3 (talk) 15:13, 15 October 2009 (UTC)
- Am I alone in reading Opie's question as How do you argue against an arguer taking statistically insignificant facts and using them as evidence?"...He asked about this specific kind of reasonining, not this argument. 90.208.3.84 (talk) 23:14, 14 October 2009 (UTC)
- Riding on what Nimur said, in my neck of the woods (Central NC), a lot of people are rejecting the Global Warming phenomenon and discussing instead Global Climate Change. Global Warming makes it sound like the entire globe is going to heat up. On average, it will, but while it may get hotter in country X, it may get to be a mini-ice age in country Y. Also, Global Warming doesn't begin to cover the ideas of droughts and floods, which are also cited as being major factors associated with this event. Falconusp t c 22:13, 14 October 2009 (UTC)
- You can also direct them to the Climate Normals compiled by the Meteorological Service of Canada. They might be interested in looking at local trends over the span of decades, rather than specific days, years, or weather events. Note the important difference between local and global climate, also. I would also like to point out global climate change as opposed to global warming - which are related but distinct phenomena. Nimur (talk) 19:59, 14 October 2009 (UTC)
- Ah, good point. I would say that the argument that I would use is that 1) it is an average trend over time, not that tomorrow is automatically going to be warmer today, and that 2) Global warming is somewhat of a misnomer as it will warm some places and cool others. The overall general trend however is to get warmer.
- Yes - the response is that changing and unusual weather are precisely what proves that there is something weird going on. As we discussed a few days ago, Texas has gone through one of the most prolonged hot periods on record - and is now getting the highest rainfall on record. The key things here are that:
- The "weather" (what's happening here and now at whatever specific place you are at) is getting crazier - sometimes crazy hot, sometimes crazy cold, sometimes crazy windy, othertimes crazy rainy - or droughty. Records are being broken at a much higher rate than in the past - which is quite contrary to expectations - which is that the longer we keep records, the lower the probability that they will be broken.
- The "climate" (what's happening on average over a few years over the entire globe) is getting hotter.
- As the climate warms up - the weather will get crazier. Sure, on the average that weather will be warmer than usual - but it's very possible for climatic warming to cause cool weather locally. An unusually cold spell in Saskatchewan is more than balanced by an even more unreasonably hot summer in Texas.
- SteveBaker (talk) 00:31, 15 October 2009 (UTC)
Plate movement rvsals
Removed question from sock of banned User:FreewayGuy. Please take any debate to the discussion page. SteveBaker (talk) 23:41, 14 October 2009 (UTC)
- Oops! No wonder I never got complete answer. They even mention it on Pangaea Ultima artilce which I never bother to study it. And North American is attach with Eurasian plate. See the green and the brown boundarys and Pacific Plate is yellow. Theose tools have answer my questions. Those questions is probably sound alot like homework questions to normal peoples.--209.129.85.4 (talk) 19:01, 15 October 2009 (UTC)
average size of a penis
laugh all you want, because i am too right now. but i want to know, whats the average size of a mans penis age 18-25? i know im going to be laughing about this one all day --Talk Shugoːː 20:49, 14 October 2009 (UTC)
- The NSFW article Human penis size will tell you all you want to know. And more. Just makes sure the kids have gone to bed and/or your boss is not lurking around your cubical. --Jayron32 20:54, 14 October 2009 (UTC)
- Well i am at work so I won't be clicking the link. It is probably discussed there, but I find it a really amusing anecdote how there was an old study, IIRC from the 60s or 70s that asked men to measure them selves and record the result. That results of that study were used for decades as the basis for "average" penis size. What they neglected to factor in is that most men when measuring them selves were, lets say, generous with their result, pretty much systematically adding half to a whole inch to the actual result. This probably accounted for a whole generation of "average" men suffering penis envy because they thought they were really an inch below average. A more recent study in which men were measured by nurses revealed a more accurate, and not surprisingly lower figure. Vespine (talk) 23:42, 14 October 2009 (UTC)
- About that last sentence you wrote there... Did they get a figure that was lower than the original figures and this was not surprising, or did they get figures that were not far enough below the original figures to surprise anyone? APL (talk) 02:42, 15 October 2009 (UTC)
- Sorry probably needs a comma after "surprisingly", as in it didn't surprise anyone that the figure was lower, especially after they realised the error in the method used for the first study. Vespine (talk) 03:14, 15 October 2009 (UTC)
- About that last sentence you wrote there... Did they get a figure that was lower than the original figures and this was not surprising, or did they get figures that were not far enough below the original figures to surprise anyone? APL (talk) 02:42, 15 October 2009 (UTC)
- Well i am at work so I won't be clicking the link. It is probably discussed there, but I find it a really amusing anecdote how there was an old study, IIRC from the 60s or 70s that asked men to measure them selves and record the result. That results of that study were used for decades as the basis for "average" penis size. What they neglected to factor in is that most men when measuring them selves were, lets say, generous with their result, pretty much systematically adding half to a whole inch to the actual result. This probably accounted for a whole generation of "average" men suffering penis envy because they thought they were really an inch below average. A more recent study in which men were measured by nurses revealed a more accurate, and not surprisingly lower figure. Vespine (talk) 23:42, 14 October 2009 (UTC)
but what if thay didnt have viagra then lol? kinda would make you wander. and thanks jayron for the link, lucky i dont have kids yet but i am at work. --Talk Shugoːː 17:27, 15 October 2009 (UTC)
Which parts of the USA have a climate similar to London?
Particularly in terms of the summer and winter temperatures. Many parts of the US have I think extremely hot summers and extremely cold winters compared with those in London. Thanks. 92.29.126.121 (talk) 21:40, 14 October 2009 (UTC)
- No part is quite the same, but the Pacific Northwest is most similar -- the area around Seattle. Looie496 (talk) 21:44, 14 October 2009 (UTC)
- Given that England is surrounded on all sides by water, it's climate tends to be a lot more moderated. Most of the islands in the US (Alaskan islands aside, for which I do not know the weather patterns) are rather far south, so their climates tend to be far warmer on average. Since none of the continental US is a small island in the North Atlantic, the weather patterns will tend to be more varied and more extreme. Falconusp t c 22:18, 14 October 2009 (UTC)
- I agree with Looie, the Pacific NorthWest is pretty similar. TastyCakes (talk) 22:23, 14 October 2009 (UTC)
- Given that England is surrounded on all sides by water, it's climate tends to be a lot more moderated. Most of the islands in the US (Alaskan islands aside, for which I do not know the weather patterns) are rather far south, so their climates tend to be far warmer on average. Since none of the continental US is a small island in the North Atlantic, the weather patterns will tend to be more varied and more extreme. Falconusp t c 22:18, 14 October 2009 (UTC)
- The US is farther south, but London (and most of western Europe) gets heated by ocean currents flowing from the tropics. That's why Ireland is considered to have a temperate climate, while southern Labrador, at a similar latitude, is considered subarctic. --Carnildo (talk) 23:19, 14 October 2009 (UTC)
- Agreeing with all of the above, at London, you will find a link taking you to Oceanic climate. The map, will show the NW as in the same range as London, with Portland and Seattle listed alongside London in the Notable Cites of Oceanic Climate. --Preceding unsigned comment 02:39, 15 October 2009 (UTC)
- On a pedantic note, England is not surrounded on all sides by water (see above). It has two land borders: Wales to the west, and Scotland to the north. If you're visiting, then it's good to not upset the natives. Bazza (talk) 14:28, 15 October 2009 (UTC)
- That's actually quite relevant to the question, as Wales and Scotland, being mountainous areas and bordering a large expanse of water, suffer much higher rainfall and lower temperatures than London does. London is in the East Anglian rain shadow, and has a climate more comparable to Brussels or Paris than to Cardiff or Edinburgh. OR it's a good layer of clothing warmer than Wales or Scotland. --TammyMoet (talk) 15:17, 15 October 2009 (UTC)
- On a pedantic note, England is not surrounded on all sides by water (see above). It has two land borders: Wales to the west, and Scotland to the north. If you're visiting, then it's good to not upset the natives. Bazza (talk) 14:28, 15 October 2009 (UTC)
Higgs Boson sabotages Large Hadron Collider.
Is this [25] as silly as it sounds? This is a discussion of a hypothesis that the failures of the super-conducting-super-collider and the large hadron collider to actually function is due to the laws of physics acting backwards through time to retroactively prevent a Higgs boson from being formed! The couple of papers I've read here seems to suggest that the authors are reasonably well-respected and that they are actually quite serious! But isn't there a gigantic loophole in their argument for a test of their theory? They say that if the LHC management were to promise to shut down the machine on a one in a million random chance - then if that unlikely event actually happens, then it's extremely strong evidence that there are influences travelling back in time to shut down the LHC!! But surely the odds are good that if the one-in-a-million chance comes up, then there is a high probability that the governments who paid all of those billions of dollars to build the machine would simply fire the LHC management who make this stoopid agreement - and have their replacements turn on the machine despite the result of the random trial? Hence a negative result of the experiment is proof of nothing - and we have an unfalsifiable proposition. Am I missing something? SteveBaker (talk) 03:31, 15 October 2009 (UTC)
- I'm sure this isn't really an answer to your question, but I don't see how what they are proposing implies anything traveling 'backwards through time'. Instead, if what the collider produced would be destructive to the universe, then the anthropic principle / many worlds interpretation would imply we are only here to witness it because the collider malfunctioned. 149.169.106.83 (talk) 03:55, 15 October 2009 (UTC)
- Reading the article, that seems to be exactly what their argument is, even though the science reporter phrases it as time travel. Basically that if the LHC leads to a paradox, then that can't be part of a consistent timeline that we're experiencing. It seems pretty doubtful to me that the laws of physics could lead to a paradoxical outcome, although I guess I can't think of any reason why not. Quantum mechanics seems like it could grant enough leeway for the universe to be steered away from certain outcomes and we probably wouldn't be able to notice most of the time. Rckrone (talk) 04:29, 15 October 2009 (UTC)
- From a general relativistic point of view, the universe is not evolving form initial conditions, it exists as a solution to a system of equations that appears to its inhabitants as if it were evolving. Solutions where a Higgs boson create a time paradox cannot exist, because they would be self contradictory. Therefore, only the solutions where, for example, the LHC malfunctions, will be observed. Also, if the one-in-a-million chance did come up, I think we would try harder to find the Higgs boson, so it would, according to their theory, actually be less likely. 76.67.73.166 (talk) 05:02, 15 October 2009 (UTC)
- Reading the article, that seems to be exactly what their argument is, even though the science reporter phrases it as time travel. Basically that if the LHC leads to a paradox, then that can't be part of a consistent timeline that we're experiencing. It seems pretty doubtful to me that the laws of physics could lead to a paradoxical outcome, although I guess I can't think of any reason why not. Quantum mechanics seems like it could grant enough leeway for the universe to be steered away from certain outcomes and we probably wouldn't be able to notice most of the time. Rckrone (talk) 04:29, 15 October 2009 (UTC)
- At the very least, the hypothesis is falsifiable in that if the LHC gets started up successfully, and successfully detects a Higgs boson, then the hypothesis was incorrect. Red Act (talk) 04:25, 15 October 2009 (UTC)
- And if we spend 100 years trying to set up this experiment and something always seems to go wrong, then that's pretty strong evidence to confirm the hypothesis. Rckrone (talk) 04:34, 15 October 2009 (UTC)
- Really? That's like saying that you hypothesize a magic purple elephant exists in a particular jungle. Each expedition you set out to explore for the magic purple elephant fails. The conclusion, by analogy, would be that (a) the magic purple elephant exists; and (b) it is directly responsible for staging the interferences with your expeditions. Both (a) and (b) are ridiculous. Nimur (talk) 05:34, 15 October 2009 (UTC)
- The analogy would be that you hypothesize that no expedition to find a purple elephant will ever even be carried out. Suppose then that every time someone plans an expedition, something unexpected happens that prevents it from even getting off the ground. If enough expeditions fail to happen and you can somehow calculate the probability of all those expeditions failing to happen given the null hypothesis, and that probability is sufficiently low, then you have a good reason to reject the null hypothesis, and conclude that something weird is going on whatever that may be. If the only plausible explanation of that phenomenon were that purple elephants were somehow sabotaging the expeditions, then you might conclude that was the cause, but there would certainly be room for other explanations if others were plausible. Rckrone (talk) 06:01, 15 October 2009 (UTC)
- An infinite series of indents to this thread can be generated by remorselessly applying the spell "Absence of proof is not proof of absence". Nature provides one unavoidable reason that this series, as all non-abstract series, must like life be truncated. Sic transit gloria mundi. Cuddlyable3 (talk) 15:04, 15 October 2009 (UTC)
- I think you are misunderstanding what I'm saying. Maybe I'm not saying it clearly. There are two experiments going on, not to be confused with one another. There's an experiment to find or not find the Higgs boson, and there's the meta-experiment to see if all attempts at carrying out the first are doomed. Hypothesis 1 is that the Higgs boson exists. Hypothesis 2 is that experiment 1 can actually be run without something against all odds melting it first.
- If experiment 1 is conducted and produces the Higgs boson, that's confirms hypothesis 1 and 2.
- If experiment 1 is conducted and doesn't produce the Higgs boson, that's evidence against hypothesis 1, but confirms hypothesis 2.
- If experiment 1 against the odds fails to be conducted, that offers no evidence for or against hypothesis 1 because there was no experiment, but it is evidence against hypothesis 2.
- If enough attempts at the experiment produce the second result, without any producing the first result, then we probably have to conclude there's no Higgs boson. If enough attempts at the experiment produce the third result, without any producing the first or second result, then we probably have to conclude that something we didn't expect is dooming these experiments. That seems pretty far fetched, so there would need to be very strong statistical evidence to rule out just bad luck. But as you said, at some point absence of proof that the experiment can be conducted has to suffice as demonstration of absence of the possibility. Rckrone (talk) 18:10, 15 October 2009 (UTC)
- I think you are misunderstanding what I'm saying. Maybe I'm not saying it clearly. There are two experiments going on, not to be confused with one another. There's an experiment to find or not find the Higgs boson, and there's the meta-experiment to see if all attempts at carrying out the first are doomed. Hypothesis 1 is that the Higgs boson exists. Hypothesis 2 is that experiment 1 can actually be run without something against all odds melting it first.
- An infinite series of indents to this thread can be generated by remorselessly applying the spell "Absence of proof is not proof of absence". Nature provides one unavoidable reason that this series, as all non-abstract series, must like life be truncated. Sic transit gloria mundi. Cuddlyable3 (talk) 15:04, 15 October 2009 (UTC)
- The analogy would be that you hypothesize that no expedition to find a purple elephant will ever even be carried out. Suppose then that every time someone plans an expedition, something unexpected happens that prevents it from even getting off the ground. If enough expeditions fail to happen and you can somehow calculate the probability of all those expeditions failing to happen given the null hypothesis, and that probability is sufficiently low, then you have a good reason to reject the null hypothesis, and conclude that something weird is going on whatever that may be. If the only plausible explanation of that phenomenon were that purple elephants were somehow sabotaging the expeditions, then you might conclude that was the cause, but there would certainly be room for other explanations if others were plausible. Rckrone (talk) 06:01, 15 October 2009 (UTC)
- Really? That's like saying that you hypothesize a magic purple elephant exists in a particular jungle. Each expedition you set out to explore for the magic purple elephant fails. The conclusion, by analogy, would be that (a) the magic purple elephant exists; and (b) it is directly responsible for staging the interferences with your expeditions. Both (a) and (b) are ridiculous. Nimur (talk) 05:34, 15 October 2009 (UTC)
- And if we spend 100 years trying to set up this experiment and something always seems to go wrong, then that's pretty strong evidence to confirm the hypothesis. Rckrone (talk) 04:34, 15 October 2009 (UTC)
- On reading through the few relevant publications at arXiv, I feel like the original authors (who may be respected physicists) are pretending to publish physics in order to make a political statement. I think this is disingenuous; they are protesting political and economic pressure in the wake of recent troubles at the LHC; but rather than address these issues straightforwardly, they are suggesting throwing caution to the wind and flipping a coin to decide the project's fate - they would prefer to see the LHC fail by random chance - preferring that "...LHC is stopped by our proposed game than if it just failed for some technical or political reason."[26]. Nimur (talk) 05:52, 15 October 2009 (UTC)
- I wish I could remember the name of a short science fiction story I read some time ago that sounds like this. A scientist had discovered a contradiction between two laws of physics, but in fact all physics laws had been generated in response by nature to contradictions been found like for instance between the wave and particle nature of light. He was warned not to do the experiment as other such experiments had bad effects but did so and disappeared in a flash of light. Many details are probably left out or wrong as it has been a while Dmcq (talk) 12:19, 15 October 2009 (UTC)
- We need to miniaturize a Higgs Boson generator. My plan is to buy 36 of them. I will let them sit on my work bench for a few weeks. Then, based on the 6-bit binary representation of 6 numbers from 1 to 60 I will turn some of the generators on, and smash the rest with a hammer.
- I'm being silly, of course, but the papers in question [27] do seem to be seriously proposing reverse causality. However, scientific humor is often so dry that outsiders don't spot it, so it's difficult to guess whether this is intended seriously or as some sort of satire. APL (talk) 13:36, 15 October 2009 (UTC)
- Oh wait, My plan is too complicated. I'll just buy a lotto ticket and turn a single generator on if I don't win. Through this means I can take the universe hostage and make it do my bidding. APL (talk) 13:38, 15 October 2009 (UTC)
- That's a good idea, I think I'll do it too ;-) Dmcq (talk) 14:05, 15 October 2009 (UTC)
- This is why we need to miniaturize our high energy reseach facilities. Sixty years ago, the common knowledge was that "nobody needed computers except the Government, the military, and a few nutcase physicists." Today, every desktop in the developed world (and a surprisingly large number in the un-developed world) is home to a miniature, personal, network-attached computer. We have found ways to make the computer usable and useful to everyday people. Meanwhile, the common knowledge has transitioned to "nobody needs high energy large hadron colliders except the Government, the military, and a few nutcase physicists." Imagine the possibilities when every man, woman, and child has access to a hadron collider! Nimur (talk) 14:10, 15 October 2009 (UTC)
- That's a good idea, I think I'll do it too ;-) Dmcq (talk) 14:05, 15 October 2009 (UTC)
- Oh wait, My plan is too complicated. I'll just buy a lotto ticket and turn a single generator on if I don't win. Through this means I can take the universe hostage and make it do my bidding. APL (talk) 13:38, 15 October 2009 (UTC)
- This whole business reminds me of quantum suicide. --Sean 14:21, 15 October 2009 (UTC)
Ethanol / isoproyl alcohol
My mom is doing the experiment of extracting DNA from cheek cells (I'm not sure of the exact details, but whatever the usual way for a highschool biology class do it would be), and she only has isopropyl alcohol, not ethanol. Will this give comparable results? 149.169.106.83 (talk) 03:49, 15 October 2009 (UTC)
- I'm terrible at Orgo; but, even if I can't answer your question, I'll state some facts facts from the article we have on it. The relevant subsection on our article Isopropyl alcohol says here that it dissolves a wide range of nonpolar compounds, and says it's safe and relatively non-toxic. If your mother is a teacher, can she just run the experiment one time and check to see if it gives comparable results? I don't know the answer, but I would assume the answer is yes. 윤리윤리윤리 (talk) 06:05, 15 October 2009 (UTC)
- Using isopropanol throughout will result in a lower quality final product (more salt), although it may still be usable. For the purpose of washing a pellet of DNA (but not precipitating the DNA from solution into a pellet), 70% ethanol is the norm, which you can find in most drug stores (and if she's performing this experiment through a school, she may be able to acquire the higher quality ethanol from biochem providers). Someguy1221 (talk) 06:08, 15 October 2009 (UTC)
quartz thermometer
what is the calibration,uses,advantages,disadvantages and applications of quartz thermometer —Preceding unsigned comment added by Derrickinlove (talk • contribs) 04:47, 15 October 2009 (UTC)
- The resonant frequency of a quartz crystal depends on temperature, thus a quartz crystal oscillator plus a frequency counter can serve as a thermometer. Some advantages of this arrangement are small size, ruggedness, the display can be remote from the sensor, small thermal inertia gives fast response and the calibration is completed when the crystal is cut (cutting angle defines its frequency/temperature coefficient) and ground (for center frequency). An example application is an ingestible thermometer. A disadvantage is the electrical power needed for the oscillator and counter. Cuddlyable3 (talk) 13:42, 15 October 2009 (UTC)
Doesn't a nonzero cosmological constant violate (or at least spontaneously break) time-translational symmetry? 76.67.73.166 (talk) 05:06, 15 October 2009 (UTC)
- There are at least one or two sci ref desk regulars who are more knowledgeable about GR than I am, so they may (hopefully) come along and provide a more complete and unequivocal answer to this than I am able to. However, I'm fairly certain that the answer to the question is "yes". This of course implies via Noether's theorem that energy isn't conserved, but total energy isn't conserved in general in GR, except in certain cases like an asymptotically flat spacetime. For more information that may be valuable to you, see ADM energy, vacuum energy and cosmic inflation. Red Act (talk) 06:25, 15 October 2009 (UTC)
- The big bang violates time-translational symmetry, so the cosmological constant is neither here nor there. --Tango (talk) 08:57, 15 October 2009 (UTC)
- A cosmological constant by itself doesn't break time translation or time reversal symmetry. Roughly speaking a cosmological constant behaves like a repulsive acceleration that's proportional to distance, d²x/dt² = (Λ/3)x. This is time translation invariant since there's no explicit dependence on t, and it's time reversal invariant since acceleration doesn't flip sign when you reverse the direction of time. Of course, there are no nontrivial time-independent solutions to that differential equation. The solutions look like combinations of , and that's why the cosmological constant is said to cause "exponential expansion". But that kind of violation exists even without a cosmological constant, because the matter will gravitate together. In fact to avoid time dependence in a universe with matter you need a nonzero cosmological constant to counter the gravitational attraction, which was the idea behind Einstein's static universe. -- BenRG (talk) 12:42, 15 October 2009 (UTC)
Proper acceleration
Can anyone explain the following phrase to me, please?
- "This first leg takes about 2 years if the acceleration's magnitude is about 1-gee."
I've read it in the proper acceleration article (Select, show for the Animation: high speed trip up then down), and couldn't understand the meaning of "1-gee".--Email4mobile (talk) 08:19, 15 October 2009 (UTC)
- "1-gee" is another way of writing "1 g", which means 1 times g, where g is the acceleration of gravity at the Earth's surface. See g-force. Red Act (talk) 08:32, 15 October 2009 (UTC)
- Thank you very much, Red Act! I will have to add it in my dictionary :). —Preceding unsigned comment added by Email4mobile (talk • contribs) 08:44, 15 October 2009 (UTC)
- I presume this is in the context of some kind of space travel. If you could devise some kind of rocket that would keep you accelerating at 1 g for two years, you'd be moving pretty fast! 9.8 meters per second of speed increase for every second is 9.8 x 2 x 365 x 24 x 60 x 60 meters per second which would be 620,000,000 meter per second...but that's twice the speed of light - so long before you get to that speed, relativity is gonna get in your way and limit you to some significant fraction of the speed of light. Since relativity is involved, your perception of time and space will be distorted and your two year-long "leg" of this epic journey will take you a very long distance indeed! I'm sure someone with more time than me will be able to calculate just how far - but it's a long way. If you are thinking of hypothetical rocket engine designs, choosing an acceleration of 1 g is convenient because your crew would be able to experience earth-normal gravity for the entire ride. SteveBaker (talk) 20:05, 15 October 2009 (UTC)
Relativistic Energy!
Is there a future probability that scientist might also discover Energy will be also relativistic like mass? I mean if they encounter a similar phenomenon to light someday that will account for the start and end of this universe?--Email4mobile (talk) 09:43, 15 October 2009 (UTC)
- I'm not sure what you mean; it's already known that all energy is relativistic. Two different observers that are moving relative to each other will in general disagree about how much energy a given photon has. The frequency of light will red shift or blue shift depending on the velocity of the observer, and the energy of a photon is proportional to its frequency.
- As far as predicting what may happen in the future, we don't do that here. See the top of this page. Red Act (talk) 10:17, 15 October 2009 (UTC)
Crystal Field effect
how the crystal field theory help us to understanding coordinating bonding and how it link with Jahn-Tller theorem ?Supriyochowdhury (talk) 10:32, 15 October 2009 (UTC)
- The question is outside of my areas of expertise, but do the following articles help you?: Jahn–Teller effect, Crystal field theory, Coordination complex Red Act (talk) 11:02, 15 October 2009 (UTC)
Energy crisis and environment
what is energy crisis?and how energy crisis is related to environment —Preceding unsigned comment added by 203.196.249.171 (talk) 11:31, 15 October 2009 (UTC)
- "Energy crisis" usually refers to an anticipated problem where energy demand is greater than supply. This can cause environmental problems because the energy gap may well be filled by using fossil fuels, pumping lots of CO2 into the atmosphere. --Tango (talk) 11:41, 15 October 2009 (UTC)
- Wouldn't they just increase the price until the supply and demand are equal? — DanielLC 13:47, 15 October 2009 (UTC)
- Yes, but that's not always tenable. If it costs $300 to drive a car to the store, and you have a society based primarily around automobile transportation, it has very real effects. If the cost of food becomes unaffordable, then people starve. Yes, the economy stabilizes out eventually, but that can have horrific consequences, especially since affecting the price of fuel, energy, heat, etc., affects the prices of so many other commodities (increased transportation costs = increases goods costs, etc.). "The economy will correct itself" works to a certain degree, but "correcting itself" can mean "crashing". --Mr.98 (talk) 16:40, 15 October 2009 (UTC)
- Wouldn't they just increase the price until the supply and demand are equal? — DanielLC 13:47, 15 October 2009 (UTC)
- That's not enough to avoid a crisis. Suppose the supply of oil plummets, and as a result gasoline goes to $20 / gallon. Many economic activities that exist today would be totally untenable under those conditions, leading to drastic changes in the economy. Dragons flight (talk) 16:42, 15 October 2009 (UTC)
- I think at $20 / gallon we would just adapt without many changes in activities (the price is not that far off in the UK!), but at $200 / gallon there would be drastic changes. Dbfirs 17:55, 15 October 2009 (UTC)
- I don't think petrol in the UK has ever gone over $10/gal (I'm not sure how fuel price variations have corresponded with exchange rate variations, so I can't be sure). At double that, it would make a difference. People would use public transport more, travel less, etc. --Tango (talk) 18:14, 15 October 2009 (UTC)
- Not to mention, USA is bigger than UK. Far more goods and services need to be trucked across country, and they need to be trucked longer distances. The cost of gas effects the cost of a lot of other things, not just your price at the pump. Groceries are a big one. APL (talk) 18:40, 15 October 2009 (UTC)
- I don't think petrol in the UK has ever gone over $10/gal (I'm not sure how fuel price variations have corresponded with exchange rate variations, so I can't be sure). At double that, it would make a difference. People would use public transport more, travel less, etc. --Tango (talk) 18:14, 15 October 2009 (UTC)
- I think at $20 / gallon we would just adapt without many changes in activities (the price is not that far off in the UK!), but at $200 / gallon there would be drastic changes. Dbfirs 17:55, 15 October 2009 (UTC)
- Have a look at Energy crisis for an overview and Category:Energy crises for a list of specific crises. Regarding the environment, it could be argued that energy crises force people to use less energy or develop innovative ways of conserving energy which may benefit the environment in the long run. This search might help. Zain Ebrahim (talk) 11:54, 15 October 2009 (UTC)
Hydrogen fusion
The fusion of two hydrogen atoms produces a helium atom. But where do the two required neutrons come from? --Leptictidium (mt) 17:49, 15 October 2009 (UTC)
- See the proton–proton chain reaction. In short, 1H + 1H ≠ 4He — Lomn 17:52, 15 October 2009 (UTC)
- And note that saying "two hydrogen atoms" does not necessarily mean 1H1... it can mean, for example, 2H1 or 3H1. --Mr.98 (talk) 18:16, 15 October 2009 (UTC)
- Given the "but where do the two neutrons come from", it seems clear that the original question meant standard hydrogen and helium. If deuterium or tritium were involved, then there are your neutrons. If helium-3 was involved, then you don't need two neutrons. On a tangential note, though, why are you guys (and the pp article) specifying the atomic number of hydrogen and helium? Isn't that utterly redundant? — Lomn 19:11, 15 October 2009 (UTC)
- The fusion of two 1H 1 atoms does not produce helium (standard or otherwise), though (not directly, anyway). D and T are both "hydrogen"; I think that's worth pointing out for someone confused. (And the proton-proton reaction explains how you get D from regular H). As for the notation—yes, technically it is redundant, but I've found personally that keeping track of protons helps students when thinking about nuclear reactions, especially when we are talking about isotopes. --Mr.98 (talk) 19:35, 15 October 2009 (UTC)