Revision as of 18:43, 12 December 2006 editEdison (talk | contribs)Administrators53,890 edits →Help me prove the Earth (and Universe) is over 5,000 years old← Previous edit | Revision as of 18:47, 12 December 2006 edit undoTeaDrinker (talk | contribs)Administrators27,251 edits →A mannan-digesting enzyme?: +replyNext edit → | ||
Line 330: | Line 330: | ||
== A mannan-digesting enzyme? == | == A mannan-digesting enzyme? == | ||
Does anybody happen to know an enzyme that at least somewhat specifically digests ]? I've been searching through the literature and catalogue, but I've been unable to find anything satisfactory. I'm hoping that I'm missing something specific. – ]] 16:52, 12 December 2006 (UTC) | Does anybody happen to know an enzyme that at least somewhat specifically digests ]? I've been searching through the literature and catalogue, but I've been unable to find anything satisfactory. I'm hoping that I'm missing something specific. – ]] 16:52, 12 December 2006 (UTC) | ||
:Prefaced with I know nothing about this topic, ] seems to have some mention of digesting mannan (no wikipedia article on it yet), see . --] 18:47, 12 December 2006 (UTC) | |||
== Guns Fired Into The Air == | == Guns Fired Into The Air == |
Revision as of 18:47, 12 December 2006
Reference Desk |
| |||||||||
How to ask a question
| |||||||||
|
| ||||||||
After reading the above, you may ask a new question by clicking here. Your question will be added at the bottom of the page. | |||||||||
How to answer a question
|
|
December 9
Nose bleed
hay anyone got any good home remedies for a nose bleed? possibly induced by alcohol. Englishnerd (not logged on!)
- It's quite amazing that alcohol both thins the blood and raises blood pressure. Do the usual Nosebleed stuff. --Zeizmic 22:45, 8 December 2006 (UTC)
- Is it not quite unhealthy to be drinking so much alcohol that you begin to bleed?? Never heard of alcohol induced haemorrhage before... --Username132 (talk) 23:47, 8 December 2006 (UTC)
- Maybe the alcohol made him pick a fight, and it was actually the fist hitting his nose that was the proximate cause of the bleeding. --Trovatore 01:56, 9 December 2006 (UTC)
- Is it not quite unhealthy to be drinking so much alcohol that you begin to bleed?? Never heard of alcohol induced haemorrhage before... --Username132 (talk) 23:47, 8 December 2006 (UTC)
- never mind, good old ice cleared it right up! Thanks for the advice though! Eŋlishnerd(Suggestion?|wanna chat?) 00:34, 9 December 2006 (UTC)
- My suggestion is to dip a facial tissue in ice water and insert it in the nose. You get the cooling effect and it also washes away the blood residue, which reduces itching that may lead you to rub it and reopen the injury. If you live in a place where the ground is cold enough, cold water from the tap may be good enough. --Anonymous, December 9, 02:44 (UTC).
Electromagnetic Radiation Communication Devices
hello,
how does a radio send information (data packets in binary code) to another radio? for example in a wireless internet link, how are the 1's and 0's transmitted over waves? through cable they transfer as 1 = n volts and 0 = 0 volts. How does this happen over radio waves?
thank you - jose
- Most commonly through modulation of a carrier wave. On top of that (or sometimes cleverly built into that) is an encoding scheme, like manchester code. Take a look at the articles linked from the carrier wave article, and at Category:Radio modulation modes. -- Finlay McWalter | Talk 23:42, 8 December 2006 (UTC)
- See Quadrature amplitude modulation too as this is a very common scheme. --Tbeatty 04:51, 9 December 2006 (UTC)
discovery of rhinovirus
I've been through many sites and have yet to it upon the answer for the discoverer of the rhinovirus. Is there anyone out there who has a scientific backround and can help ? —The preceding unsigned comment was added by Williamblackman (talk • contribs) 00:05, 9 December 2006 (UTC).
- If you can't find it on the internet, you might want to go to the last reference listed in the article, which appears to be the oldest, and use the reference list in the back of it. BenC7 02:08, 9 December 2006 (UTC)
- According to Common cold#History, the rhinovirus was discovered in the Common Cold Unit in the 1940's–50's. –mysid☎ 08:27, 9 December 2006 (UTC)
Amount of indicated substance
Once you've found an indicator for a compound, how can you find out how much of that compound there is in the solution? Also while I'm at it, is the body (bone, organs, enzymes etc) made out of any inorganic compound? Thank you. Jack Daw 01:16, 9 December 2006 (UTC)
- It will depend on what compound it is. Not sure about the other question; I thought enamel might be inorganic, but apparently it is 4% wt. organic. BenC7 02:02, 9 December 2006 (UTC)
Calories burned
Hi I am trying to calculate the number of calories I burn during weight lifting. If I can estimate the weight (in lbs) and the height (in ft) to get ftlbs, how would I convert this figure into nutritional calories? My guess would be:
Weight (lb) x Height (ft) x 1.355 J/ftlb x 1cal/4.184J x 1kcal/1000cal / 20% (])
Does this look reasonable? If so 60 reps of 50lb bicep curls through 3ft would burn 15 Calories, equivalent to about a teaspoon of sugar. Thanks! --71.212.160.45 03:39, 9 December 2006 (UTC)
- I agree with the calculation. Some energy would also be expended in just holding the weights up; this goes directly into heat, so you can't calculate it the same way, but my guess is that it'll be much less than the energy spent in lifting. --Anonymous, December 9, 04:30 (UTC).
- The calculation is correct, but not the assumptions behind it. When you do any kind of exercise, your heart beats faster, you breathe harder, and you produce more sweat, which evaporates and cools your body so it has to expend more energy to maintain its temperature. Of course, that doesn't have as much effect on weight lifting as it does on aerobic exercise, but I still think your estimate is low. —Keenan Pepper 04:47, 9 December 2006 (UTC)
Temperature of nuclear waste
What is the temperature of nuclear waste when it is stored? Adaptron 03:57, 9 December 2006 (UTC)
- indicates it is stored in an underground repository, presumably at near-ground temperatures. --71.212.160.45 04:06, 9 December 2006 (UTC)
- You're ignoring the important fact that it generates its own heat by radioactive decay. The temperature depends on how fast it decays, how much energy each decay releases, and how fast the heat generated diffuses into the environment. —Keenan Pepper 04:34, 9 December 2006 (UTC)
- As a rule, most materials (not in a vacuum) settle to equilibrium at the same temperature as their environment. So you would first need to find out the temperature of the environment it is stored in - deep underground, or in concrete containers, or whatever.
- However there is an additional complexity in that nuclear waste (radioactive materials) also generate heat through radioactive decay, constantly, as they decompose to simpler (non radioactive) elements, and the time and energy they generate varies with their contents. In fact this is believed to be one of the reasons the earth has not yet cooled down all that much inside in its core. So you need to find the exact contents of the radioactive waste, and work out how much heat it gives off, which is hard to do and varies widely.
- In fact, the temperature of the waste will not be the same as either its surrounding environment, nor the energy given off by the waste. The temperature of the waste will be fixed by how easily the heat generated by radioactive decay can pass into the environment. If heat can escape easily then the waste will adopt a temperature similar (or slightly higher) than the environment. If heat cannot escape easily then it will increase in temperature until heat loss through conduction convection and radiation equals heat generated by radioactive decay, in accordance with the laws of thermodynamics. For more on this see thermal equilibrium.
- As one final twist, the waste may not all be at the same temperature. For the above reason it could be hotter at the center, if there is a lot of it. FT2 04:37, 9 December 2006 (UTC)
- The temperature of stored waste is something that the repository designers choose; it's one of the engineering parameters they have to trade off when designing the repository. The mix of the waste, the size (and shape) of the waste containers, and the spacing between the containers are the primary factors that determine how hot the repository will be. Ventilation is too, if it's to be an open repository. Particularly for higher-level wastes, a (very) subcritical chain reaction condition can exist. which leads to more decay and thus more heat. For the repository designer this is both a blessing and a curse - the more radioactive a container is the more difficult it is to handle and the more dangerous (in the short term) it is, but the quicker it will decay. Designers of these kind of repositories (which are usually in tanks of water) can reduce the size of the containers, or adulterate the waste mix, to lower the activity. The designers of the Yucca mountain repository propose two operating modes, a high temperature mode and a low temperature mode (I don't think they've decided which they'll actually use). This DoE PDF says the high temperature mode will allow the material to get above the boiling point of water, and the low temperature mode won't. One of the hold ups on activating Yucca Mountain is the recent discovery that the rock from which it's made, tuff, may be more susceptible to heat-induced transformation (over the thousands of years of the repository's working life) that had been anticipated. This may mean that the designers will have to pick a yet-lower temperature mode. -- Finlay McWalter | Talk 12:00, 9 December 2006 (UTC)
One other note, radioactive materials with a shorter half-life will tend to be hotter, all things being equal, than those with a longer half-life. On the other hand, those with a short half-life will quickly decay to other elements, which may be stable, or radioactive with a short half-life, or radioactive with a long half-life. StuRat 12:07, 9 December 2006 (UTC)
- I worked on this for a few years, with respect to a waste repository deep in rock, and the heat issue was problematic. It is controlled by the number of years you keep the waste in the 'swimming pools', or in above-ground concrete dry storage. --Zeizmic 14:05, 9 December 2006 (UTC)
Six pack
you know the six pack on your body shouldn't they be the same size at both the left and right of your body? and shouldn't they be at the opposite of each other. my right abs are bigger than my left. an i can only see two on my left and the top ab is lower than the ab on my right. what should i do? or ist supposed to be like that? —The preceding unsigned comment was added by 222.153.161.173 (talk) 07:09, 9 December 2006 (UTC).
- This varies from person to person. It is pretty common for these muscles not to exactly align, and for the all 'six' not to be clearly visible (sometimes it may look like five, or even four). Go and have a good look at some bodybuilding magazines or pictures on the net, you'll see that this 'problem' is not that unusual. --jjron 14:30, 9 December 2006 (UTC)
- Just check out the 'six pack' on the guy to the left:
- Okay... even the women have packages. That's just gross. --Russoc4 21:43, 9 December 2006 (UTC)
- Just check out the 'six pack' on the guy to the left:
well is there anyway to fix it?
- Yarrrrg. And that one dude even seems to have a tattoo on his tush. Ew. 192.168.1.1 4:40pm, 9 December 2006 (PST) —The preceding unsigned comment was added by 71.112.143.116 (talk) 00:35, 10 December 2006 (UTC).
- There's three things that will make you attractive: a healthy head of hair, nice eyes, and a good six pack. The way to improve all three is by improving what you put inside of you: food and air. Be wary of all meats (and poultry), hydrogenated or partially-hydrogenated oils, any food additive that doesn't sound like it was around a hundred years ago, and of course house dust. There is nothing quite so insidious as house, car, and office dust. The outdoors are your friend! :) Mathiemood 00:36, 11 December 2006 (UTC)
- Er, I think there are a few things more insidious than house dust. Meat is fine. As for the question, there is probably not anything that can be done, considering it is just one muscle, not a group of individual muscles. See rectus abdominis muscle. BenC7 03:04, 11 December 2006 (UTC)
- Name one thing more insidious than house dust please!
- Vis a vis meat; you are right, not everybody can live near the sea. Mathiemood 06:15, 11 December 2006 (UTC)
- That and who is to say something that didn't exist a hundred years ago will deteriorate your physical fitness? Short of a new strain of disease like AIDS that leads to hospital stays and by extension not much of a chance to exercise, I can't think of anything that will impair your muscular growth, especially not in food. Or dust. --Wooty Woot? contribs 03:16, 11 December 2006 (UTC)
- Well, if it wasn't around 100 years ago, it probably wasn't created in a laboratory by a bunch of pencil-dicked egg-heads looking to make a quick buck. Mathiemood 06:16, 11 December 2006 (UTC)
What you can learn about LASIK from commercials
There's a LASIK place near me that has been advertising a lot on the radio. One of their ads says that pregnant women cannot have LASIK. They don't go into the reasons on the commercial of course but it got me wondering. What does prenancy have to do with LASIK eye surgery? Is it the sedative used that may have adverse effects on the fetus? Dismas| 07:19, 9 December 2006 (UTC)
- This document has the answer. –mysid☎ 08:23, 9 December 2006 (UTC)
- Interesting. Thanks, Dismas| 08:47, 9 December 2006 (UTC)
Stains (biology)
what stains are best for seeing: 1) bacteria 2) human/animal tissues and fluids 3) plant life
this question is for personal use. ive asked my biology teacher and she responded that methyl (sp?) blue is perhaps best for animal tissues. —The preceding unsigned comment was added by PitchBlack (talk • contribs) 10:19, 9 December 2006 (UTC).
- For bacteria the good old gram stain (crystal violet/fuchsine) is most likely what you're looking for. I agree with your biology teacher that methyl blue is most likely the best stain to use for animal cells. Plant cells though, I wouldn't really know what to use for that. Oh be careful with those stains some of them are very difficult to get out of your clothing. PvT 12:22, 9 December 2006 (UTC)
- It really depends a lot on what you're hoping to see, and whether or not you have access to the tools of modern (er, at least mid-twentieth century) histology or not. Our article on biological stains may be starting point for your search.
- The 'standard' (for historical reasons) for human tissues is the Haematoxylin and eosin stain (H&E), though there are a bunch of other choices of stains and counterstains if you're looking for specific features. H&E works well for animal tissues and in most plants, as well. (Once again, you may want to choose different stains based on the features you want to see.) As PvT said, Gram staining is a good choice for bacteria, if you're looking to identify basic shape and Gram positive/negative status.
- If you're looking for carbohydrates (starch) then iodine works well. (It turns dark brown when it reacts with starch.) The Sudan stains are dandy for faits; Nile red is also excellent for demonstrating lipids in tissue.
- Toluidine blue is a good stain for DNA. TenOfAllTrades(talk) 14:37, 9 December 2006 (UTC)
- Oh and another word of advice. Always check the chemical properties of the dye you are working with. Some histological stains are suspected to be carcinogens (especially anything that binds to DNA) others are just simply toxic. If you are simply doing this for fun I'd avoid any of the more dangerous stains or ask a teacher to help you.PvT 15:22, 9 December 2006 (UTC)
Crossing satellites
Do we know of a celestial object that supports (natural) satellites that travel on orbits at an angle with each other but have the same diametre so that they effectively cross each other's path? Could such a system be stable? Keria 19:07, 9 December 2006 (UTC)
- I can't say if such a system is known, however since the system you describe would seem to have at least three objects, proving it is indefinitely stable is probably not yet mathematically possible (see three body problem). One thing to consider, the two orbiting objects will have different trajectories due to the influence of the other, as well as responses to the more massive central body, which moves in response to both objects. If the orbits cross at one point, they may not necessarily cross indefinitely. --TeaDrinker 19:21, 9 December 2006 (UTC)
- I don't think that this system is necessarily a three body problem. Even natural satellites can have a very large mass disparity (solar system, moons of Jupiter, etc.). Also, assuming two circular orbits have the same semimajor axis, they must necessarily intersect at two points (unless they are co-orbital), correct? -anonymous6494 21:05, 9 December 2006 (UTC)
- What I was thinking of was the Restricted three-body problem, which is solvable analytically and numerically. -anonymous6494 21:14, 9 December 2006 (UTC)
- Only in two dimensions. In the real three-dimensional world, the paths of objects very rarely cross at all. Pluto and Neptune are a pretty well-known example; their orbits are often said to "cross" but really they come nowhere near (and I'm not talking about resonance, just geometry). Melchoir 00:36, 10 December 2006 (UTC)
- I stipulated that both orbits must be circular, and have identical semi-major axes. Neptune and Pluto satisfy neither of these conditions. Any two circles with the same radius and same center (i.e. two circular orbits) must intersect at exactly two (or infinity) points. -anonymous6494 03:47, 12 December 2006 (UTC)
- Only in two dimensions. In the real three-dimensional world, the paths of objects very rarely cross at all. Pluto and Neptune are a pretty well-known example; their orbits are often said to "cross" but really they come nowhere near (and I'm not talking about resonance, just geometry). Melchoir 00:36, 10 December 2006 (UTC)
- What I was thinking of was the Restricted three-body problem, which is solvable analytically and numerically. -anonymous6494 21:14, 9 December 2006 (UTC)
- I don't think that this system is necessarily a three body problem. Even natural satellites can have a very large mass disparity (solar system, moons of Jupiter, etc.). Also, assuming two circular orbits have the same semimajor axis, they must necessarily intersect at two points (unless they are co-orbital), correct? -anonymous6494 21:05, 9 December 2006 (UTC)
- See Epimetheus for a close approximation of what you describe. Additionally, two asteroids with identical semi-major axes would fit. "Stability" is relative. If the two satellites were not exactly 180° apart, the gravitational interaction between them would eventually shift their orbits so that the objects would some day both be approaching the same crossing node simultaneously. However, if the satellites were of sufficiently low mass, and the distance between them sufficiently large, their gravitational interaction wouldn't be of any importance as a practical matter. B00P 23:15, 10 December 2006 (UTC)
Embryology
What, if any, is the difference between the extraembryonic mesoderma and the exocoelomic mesoderm? Thanks Omalé 19:54, 9 December 2006 (UTC)
- As I understand it, the exocoelomic cavity appears inside the extraembryonic mesoderm, there is no (separate) "exocoelomic mesoderm". See this reference. --Seejyb 21:52, 9 December 2006 (UTC)
Black holes of different sizes?
Black holes can have different sizes, from the supermassive black hole at the center of the galaxy, to miniature ones created in particle colliders. After reading the explanation above, the singularity at the center isn't a "thing" that can be measured, nor does it have a size, right? But it has measurable mass, doesn't it? Is that just the way it is, because the laws of space-time do not apply? Also, what determines the size of the event horizon (it has a diameter, doesn't it?). Massive black hole= large event horizon, tiny black hole= small event horizon? 192.168.1.1 1:15pm, 9 December 2006 (PST) —The preceding unsigned comment was added by 71.112.143.116 (talk) 21:11, 9 December 2006 (UTC).
- The size of the event horizon is the Schwarzschild radius, at least for non-rotating, non-charged black holes. For this case, the only difference is mass, as you've indicated. -anonymous6494 21:23, 9 December 2006 (UTC)
Pretty much everything you said is correct. StuRat 22:13, 9 December 2006 (UTC)
- Cool, thanks. So the schwarzchild radius is a quality of a black hole, but it is not tangible; like the earth's equator, yes? What's in the space between the schwarzchild radius and the singularity? Just vacuum and whatever matter is being sucked into the black hole, right? 192.168.1.1 4:35pm, 9 December 2006 (PST) —The preceding unsigned comment was added by 71.112.143.116 (talk) 00:31, 10 December 2006 (UTC).
- In the theory of general relativity, the interior of the event horizon isn't qualitatively any different from the exterior. So, yes, you could identify that as being vacuum plus whatever's being sucked in. In reality, I don't think we know what lies behind the event horizon. Didn't someone seriously propose that black holes were fuzzballs of cosmic strings on the inside...? Melchoir 00:42, 10 December 2006 (UTC)
- If we knew exactly what lies behind the event horizon, it would not be called an event horizon. --V. Szabolcs 13:52, 10 December 2006 (UTC)
- But we could hope for a complete theory of gravity that accounts for all observed properties of event horizons and makes a reasonable, meaningful prediction about what lies behind them. Sure, we couldn't test such a prediction, but we should still be able to make one. Currently that theory is missing, and we are more ignorant than we absolutely need to be. Melchoir 17:46, 10 December 2006 (UTC)
A funny question: in the article I see "beyond which events cannot affect the observer" and "an outside observer cannot be affected by anything inside the black hole". Than how can gravity affect us? It certainly comes from the inside of the Schwarzschild radius. --V. Szabolcs 13:56, 10 December 2006 (UTC)
- That's a very good question. If you can answer that one, you can be sure of getting a Nobel prize any time soon. David 15:38, 10 December 2006 (UTC)
- Just a guess, but visualize space as a flat sheet. As mass starts accumulating, it creates a depression. (This, I believe, is how Einstein's Theory of General Relativity interprets gravity.) Just before the black hole forms, you have a really deep depression. When the black hole is born, the depression is infinitely deep. But just because nothing can escape now doesn't mean the depression suddenly disappears. Voila! The gravitation resulting from the distortion remains. (P.S. When can I expect a call from Stockholm?) Clarityfiend 00:59, 11 December 2006 (UTC)
- This does have similarities with my assumptions (that the spacetime is somehow different in the neighborhood). But if the singularity, after created, is not influenced by the black hole itself, what happens when the black hole will no longer be there? (it evaporates, or just moves away, orbiting a galaxy core or something like that) I have searched a lot to find out more about gravitational waves, but no one has ever explained how gravity waves could exit the Schwarzschild radius to affect surrounding space if they cannot go faster than light. Are they themselves immune to gravity? :) It is known that light is not. This brings me an idea. Did some scientists do some experiments to see if gravity waves could be bent around large masses just like light could be? --V. Szabolcs 16:05, 11 December 2006 (UTC)
- How can a black hole no longer be there? In a sense, the black hole is the distortion in space-time. The matter that originally formed it has exited the universe, so it's not going to move around where we can see it.
- Are gravitational waves affected by mass? What I read of the article doesn't seem to say. Clarityfiend 20:38, 11 December 2006 (UTC)
- www2.yukawa.kyoto-u.ac.jp/~jgrg14/Proc/POS-23.pdf, along with other Google hits, seems to say that gravitational waves can be affected by large masses/gravitational lenses. Sounds a little weird to me - kind of like saying one water wave affects another, but what do I know? Clarityfiend 06:52, 12 December 2006 (UTC)
- Are there any black holes so massive that even the black can't get out? - blank holes ...?
- Black isn't really a color, it's the absence of color. So black holes are always blank. Clarityfiend 06:52, 12 December 2006 (UTC)
- Are there any black holes so massive that even the black can't get out? - blank holes ...?
- I know that movement is relative, but what about a star orbiting the galaxy core, or having some kind of movement and/or acceleration relative to other stars. What will happen with it's momentum when it eventually becomes a black hole? --V. Szabolcs 01:14, 12 December 2006 (UTC)
Old images of eyes
Why is it that in old (19th century) images such a plates or daguerrotypes, the eyes of people so often appear such a strange almost translucent shade? I have not seen the effect in any modern 20th century black and white images. Is it a result of perhaps a wider spectral sensitivity (into the IR?) of the older methods?--Deglr6328 21:33, 9 December 2006 (UTC)
- Strange is subjective. Never the less, it could be just because the technology is different. Watch an older film that is natively black and white and compare it to a modern film that has its color removed. The quality is very different. --Russoc4 21:40, 9 December 2006 (UTC)
- In early photography, the exposure might take 10 or 30 seconds. Metal headrests were used to keep the subject's head from moving, but the eyes were likely to blink and look around, leaving them looking blurred. Photos were also taken of dead people, posed to look alive, and there were sometimes post-mortem changes in the appearance of the eyes. Edison 00:29, 10 December 2006 (UTC)
- It's also possible that they looked away briefly, if (as the article seems to say) daguerrotypes required a long exposure. I've taken long exposures of myself with black-and-white film where I didn't move my head, but looked away for a moment during the exposure. The eyes looked curiously washed-out; if this doesn't appear in all daguerrotypes, that might be the source. grendel|khan 00:39, 10 December 2006 (UTC)
- Your eyes move even if you don't move them consciously: see Saccade. —Keenan Pepper 03:16, 10 December 2006 (UTC)
Until later in the 19th century Daguerreotypes were orthochromatic , being sensitive to blue-green and UV. Therefore the eyes "like limpid blue pools" (but in b/w). Adding polychromatic dyes came somewhere in the 1880s, I think. --Seejyb
- Theeeere's the answer I was looking for! Very interesting. Thank you. Totally makes sense too since not all people's eyes have the weird color, only those that appear light to begin with. --Deglr6328 10:02, 10 December 2006 (UTC)
- After playing around in photoshop with images of blue eyed people it is obvious this is the correct answer. If you remove the red component of an image before converting it to greyscale it makes the eyes look EXACTLY like the ones in the old daguerrotypes. Thank you again.--Deglr6328 11:24, 10 December 2006 (UTC)
Tryptophan hydroxylase reactivation/reformation
Case in point: the older generation MAOIs, which irreversibly inactivated monooxidases, only for new ones to reform within about two weeks. MDMA is said to (permanently) damage Tryptophan hydroxylase in serotonergic neurons, critical to the control of 5-HTP synthesis, a precursor of serotonin. Do these enzymes newly reappear after some time, or in some way can be reactivated (if so, howabouts?). Thanks. --Curious 22:05, 9 December 2006 (UTC)
- Most cells that are capable of synthesizing an enzyme once can do it again. This applies to neurons and presumably to tryptophan hydoxylase. Theoretcally, however, even temporary interference with enzyme activity in neurons can have effects on both short-term and long-term neuron function because of the continuously ongoing strengthening and weakening of synaptic activities, and because of the activation of various compensatory events that occur when a cellular process is disrupted. alteripse 15:07, 10 December 2006 (UTC)
Paper Parachute
I'm trying to build a parachute out of only cheap white paper and tape. I can use up to 5 pieces of paper, but the parachute should be small when not in use (when sitting.) How should I go about this? I was thinking it through with one piece of paper. I folded a piece of paper in half lengthwise and then widthwise, and then folded the corners in towards the center. I then attached my heavy object to the center of the parachute and taped the corners and the midpoints of the edges down to the bottom of my heavy object so that if the wind hit the parachute, it would be rigid enough to hold, rather than give way to, air. This significantly reduced the parachute in size by folding it a fair amount inward. Regardless of the limit in size imposed for this project (20cmx20x30), is that a good idea? i dont want the wind to be able to simply push the parachute wings up. What about a rotating parachute? Good idea? How would one make it? I get the feeling it would be too technically difficult. Any suggestions you could give would be quite helpful, because the parachute part of this assignment is quite daunting. Thanks. Sashafklein 22:16, 9 December 2006 (UTC)
- How about if you start by taping 5 pieces of paper together to make a cube with one side missing ? Then, use long strands of tape to connect to the object, going all the way from one piece of paper, down, past the object, up to the other piece of paper, like this:
+------------+ Gap | | | | | | Paper | | | | + + \ / \ / \ Obj. / Tape \ ** / \**/ --
- Try to leave some gaps in the corners where the pieces of paper come together at the top of the cube. You need to allow a certain amount of air to escape at the top of the parachute or it will exhibit an undesirable behavior known as "squidding". You will likely need to test and make mods several times to perfect it. StuRat 01:02, 10 December 2006 (UTC)
That looks like it'd work quite well. Thanks a lot.Sashafklein 04:07, 10 December 2006 (UTC)
- You're quite welcome, let us know how it works out. StuRat 14:49, 10 December 2006 (UTC)
I made that parachute and it worked until it flipped over near the end. That's ok, cause it was a practice run. I think I'm changing the parachute design, however, to fit into a smaller space. In order for the parachute to be really effective, it had to be large, and the way my teacher's scoring the project is that not only must the egg inside the contraption survive, (the whole point of this is to sucessfully drop an egg in a ten-straw 5-piece-or-paper lots-of-tape contraption so it doesn't break after a 16 meter fall) but the whole thing, when at rest, must also fit within certain small dimensions. The smaller the contraption, the higher my grade. I originally gave up on size and built your parachute, but since it squidded at the end anyway (my construction mistake - It was probably too well sealed), I figured I'd try something smaller if I had to re-do it anyway.
If you're interested: I took my five pieces of paper and cut large circles out of them. I then crumpled up all the paper again and again until it was soft and would bend easily in the wind, made a slit to the center, and then layed one side of the slit an inch or two over the other to form a slightly steep cone and taped it in that shape. I then stacked all five and attached them with room for expansion, so that when they drop, they'll all seperate upwards and catch air. It works pretty well, but the real test is on Tuesday. Thanks for your help at any rate. I now know how to avoid squidding (and have cut holes in the top of each cone to avoid it), so your advice has been quite helpful in the end. Thanks a lot. Sashafklein 01:41, 11 December 2006 (UTC)
- You're welcome, good luck ! StuRat 05:32, 14 December 2006 (UTC)
engine
What does non turbo targa mean? There was iinfo about a car and it said non turbo targa. —The preceding unsigned comment was added by 70.115.14.36 (talk) 22:25, 9 December 2006 (UTC).
See targa top--Russoc4 00:41, 10 December 2006 (UTC)
- And for the other part, a "non-turbo" is a normally aspirated engine, that is, one which lacks either a supercharger or a turbocharger. That means it will have less horsepower than a turbocharged engine of the same size. StuRat 00:46, 10 December 2006 (UTC)
December 10
Temperature Rising
Ok, so lets go to the next level... anyways, I was reading Verne's "Journey to the Center of the Earth," and I had a couple questions about the feasibility of a couple of the theories/facts presented in the novel. A) In Axel's arguments of why it is impossible to reach the center the earth, he mentions that the temperature rises 1 degree (I'm assuming Fahrenheit) for every 75 feet or so dug into the earth. Is this true?
- *I'm going to interrupt the original long paragraph to answer these questions one by one. I'll mark my insertions with "*".
- *First, I checked this passage in the English and original French versions available at Project Gutenberg (PG). Both versions say 1 degree in 70 feet. Therefore it must mean Celsius degrees and Paris feet (about 12.79 inches). The original French goes on to point out that the Earth has a radius of 1,500 leagues (these would be French metric leagues of 4 km, as in Twenty Thousand Leagues Under the Sea) and therefore at this rate of increase a temperature of 2,000,000° could be expected, enough to vaporize anything. The characters go on to discuss whether this is plausible. This calculation and discussion are omitted from the English version at PG, which may be just as well, since the arithmetic is wrong by almost an order of magnitude. However, I see that the original poster read a different translation, since the one at PG has Axel's name changed to Henry, so some of the detail may be in there.
- *Does the temperature increase like that? Yes, pretty much. This page says the real increase is typically 30°C/km, although it naturally varies according to the geology of the area. In Verne's units that's 1°C per 100 Paris feet, near enough the number he gave.
- *But of course this increase doesn't continue to anywhere near the center of the Earth. Seismology tells us how deep the solid and liquid layers are. The core of the Earth is in the thousands of degrees Celsius, not the hundreds of thousands.
B) On the journey to Sneffel's, the Professor is dismayed to discover that an Icelandic mile is roughly 4 of the standard miles. In the 1800's, was that true?
- *Yes, very likely. While the English-speaking and Romance-language countries used "miles" similar to the ancient Roman mile, the German-speaking and Scandinavian countries used units several times larger with similar names. Look up "meile" and "mil " at this excellent web site about units. Iceland isn't mentioned but it would very likely use the same units as mainland Scandinavia. Today people speaking English in Scandinavia may use the word "mile" to mean the metric mil or 10 km, which is about 6 miles (as I found out once when told to drive "3 miles" to a hotel).
C) As for the great sea in the interior of the earth (assuming the Hollow earth theory is true), would said sea curve in the interior of the earth or be roughly straight?
- *If the Earth had a hollow center partly filled with air and partly with water, the water would form into a sphere under its own gravity. If the solid part of the Earth was spherically symmetrical, this sphere would float around freely in the hollow space as discussed below.
D) Axel mentions at one point that things become lighter as they become closer to the center of the earth, and mentions that its believed there is no gravity in the center of the earth (once again supposing that the hollow earth theory is correct). I also read a similar thing in an essay, and I was wondering what would happen if a human being managed to dig a hole through the earth (to be clichéd, America to China), would they instantly be caught in a limbo upon reaching the center of the earth, or would they slingshot up to near the surface, then fall back down before exiting, to be repeated ad infinitum until the point in time when the body stops falling? Crisco 1492 01:36, 10 December 2006 (UTC)
http://www.damninteresting.com/?p=696
There is an interesting article about gravity. As for gravity inside a UNIFORM solid sphere if you travel inwards towards the core gravity decreases linearly until it is exactly zero in the center (you are being pulled equally from all directions). Real earth is more dense at the center than in the mantle so it doesn't obey that exactly. If you were to hollow out the the core of the earth, there would be no gravity at all in the center, you would float. Gravity and EM follow the same 1/r^2 rule so you get a gravity version of the Faraday cage. If you made a complete tunnel through the core of the earth to the other side and jumped in, without friction you would oscillate back and forth indefinitely. 152.3.73.203 02:55, 10 December 2006 (UTC)
- *To clarify: the part about "not exactly" refers to the decrease in gravity being linear. In any spherically symmetrical body gravity goes to zero at the center and if there is a hollow space at the center then gravity is zero within the entire hollow space.
- *In fact the Earth is not spherically symmetrical, but is slightly oblate, since it rotates and the centrifugal force makes gravity slightly less near the equator than elsewhere. The resulting "equatorial bulge" is about 14 miles high. If there was a spherical hole at the center of the Earth, this would create a slight gravitational force which I believe would attract anything inside the hole toward the part of the hole's surface directly below the equator. --Anonymous, December 10, 2006, edited 07:04 (UTC).
- Thanks anon, seems pretty interesting how much things change over a period of 100 years. Almost as funny as using a giant cannon to get to the moon... hmm... :P However, Verne did have a very good imagination, to be sure. Crisco 1492 11:09, 10 December 2006 (UTC)
- That cannon idea isn't quite as absurd as it might sound, especially on a planet or moon with little atmosphere. A ship could be accelerated along a long shaft then launched into space. On Earth, the same technique could be used, but you couldn't accelerate it to escape velocity, as that would be too fast in the thick atmosphere at ground level and the ship would burn up. However, a nice "boost" could be given in this manner, with conventional rockets kicking in to provide the rest of the lift. The advantage of such a system is that the energy source for the initial launch is external to the ship, so the ship doesn't need to have more fuel to lift the fuel, then more fuel to lift that fuel, etc. StuRat 14:37, 10 December 2006 (UTC)
- I was referring to Verne's From the Earth to the Moon where I believe it was a straightforward cannon launch. However, the booster style seems to work rather well, but how would the launch forces be dealt with a ground level? I'm thinking that it would require an extra stage, which prevents the entry of any of the explosive forces from the cannon into the bay where the fuel is stored (liquid or solid, probably doesn't matter). Therefore, said rocket might not gain too much of a weight advantage. Crisco 1492 23:21, 10 December 2006 (UTC)
six pack
relating to the top section is there anyway to fix it? —The preceding unsigned comment was added by 222.153.161.173 (talk) 02:25, 10 December 2006 (UTC).
- You should click the button on the section that already exists instead of creating a new one. —Keenan Pepper 03:18, 10 December 2006 (UTC)
i did but no one is responding, so i thought i might create new one. So is there a way to fix this problem? my abs are not aligned
- You could always cut open your chest and play around in there. In all seriousness, though, your abs will probably develop the way they do, and there's not much you can do to change that. --Wooty Woot? contribs 06:25, 10 December 2006 (UTC)
Are you sure i can't do anything about it? can tell me why are mine like that and other people's are not?
- I think the only person who could tell you that would be a doctor, who will be able inspect it properly. If you are worried about it, get it checked out. We are not in a position to offer medical advice, but it doesn't sound serious to me.--Shantavira 09:32, 10 December 2006 (UTC)
- I second Shantavira. A physiotherapist or sport medicine practitioner may help you. We can't. -- Seejyb 11:00, 10 December 2006 (UTC)
ATP
Why is ATP used as an universal energy currency?Why not GTP..which also plays a role in some reactions?What brings the difference..is that the properties of both the purine s(ADENINE AND GUANINE).........Why isnt GTP able to participate in reactions..freely like ATP? (even though only GTP is discussed in the question..a relavant answer may be given..even considering the other nucleotides)--hima 07:24, 10 December 2006 (UTC)
- This sounds like homework, but this explains it. --Wooty Woot? contribs 10:03, 10 December 2006 (UTC)
thx for ur..answer..this is not a home work question...its my doubt..anyway ur link has clarified my doubt..upto a large extent..thk u--hima 14:01, 10 December 2006 (UTC)
- Some day in the future it might be possible to compare the molecular components of life forms that have evolved on other planets. It would be interesting to see if there are certain molecules that tend to get used for certain functions. Some people such as Stuart Kauffman have discussed the idea that there are non-random effects that channel molecular and biological evolution along certain paths. --JWSchmidt 03:25, 11 December 2006 (UTC)
Thermostat ?
This user has indicated that they would prefer serious answers and may require references. Please refrain from adding jokes and opinions. |
I've added the above template primarily to show it to users, who are then free to add it themselves, if they wish, as:
{{strict}}
I've noticed I have to turn the temp up when it's cold out, and down when it's not so cold. It seems that every room in the house gets colder when it's cold out. Why isn't my thermostat handling things on it's own ? It seems to be substantially colder right in front of the thermostat on cold days, but it still reads the same. The only reason I could think of is that, being mounted on the wall, the temperature of the space between the walls also has an influence, and perhaps the temp there tends to lag the temperature of the air in the room. Can anyone else think of what might be going on here ? StuRat 14:45, 10 December 2006 (UTC)
- The principal problem with ordinary thermostats is that they are only capable of regulating the temperature at the exact point where they are mounted. This leads to two problem aspects:
- If the thermostat is mounted on an interior wall, it fails to take into account the temperature gradient that will be experienced as you move towards the outer walls of the building. (For ease of setting our example, let's assume it's winter/the heating season.) So while it may be a nice, toasty temperature right at the thermostat, as you move towards the outer walls (where more heat is being lost), the room air will be found to be colder and colder. Conversely, if it's mounted on an exterior wall, it will tend to overheat the interior spaces.
- If the thermostat is subject to localized heating (from, say, a kitchen, a table lamp, or the sun falling on the thermostat), the rest of the space will not be adequately heated. Conversely, if the thermostat is somewhere where a cold draft can blow on it (perhaps as you open an exterior door), the rest of the space may be overheated.
- Both of these problems will become more severe (pronounced) as the temperature difference between the interior and exterior spaces increases.
- Another aspect, of course, is that the thermostat can only control the temperature of the air. As the exterior temperature drops (and the exterior walls become colder), you lose more and more heat to radiational cooling (to which the thermostat is essentially insensitive). So you need warmer and warmer air to still feel warm as the walls become colder.
- An ideal system would be broken up into many more heating zones than are typically used. A somewhat less-ideal system would at least have more temperature sensors and would run the heat based upon some aggregate temperature reading. And both systems would use infrared devices to sense radiational cooling.
- Thermostats are, of course, problematic in other ways as well. Because they are usually binary devices, there must be some deadband between the temperature at which they turn on the heat and the (higher) temperature at which they turn it back off again, so your room temperature must at least vary by the width of the deadband. (Depending on your heating system,) Heat also tends to continue being delivered after the thermostat stops calling for heat so they must correctly "anticipate" this effect and switch off a little bit earlier than their setpoint would otherwise indicate.
- Old mechanical thermostats had a small adjustable electrical resistor (called, logically enough, the anticipator) that directly heated the thermostat to accomplish this effect. Modern computer-controlled thermostats tend to have a programming parameter that performs the same function. And to avoid too much anticipation, thermostats should not be located directly near the heat source for that room, so don't put it right in the path of the exhaust from an air duct or directly above a hot-water radiator.
- Okay, these are all fine points but none of them seems relevant to my case. My house has forced-air heating with central air conditioning. There is one conventional thermostat, which is on an outside wall of the ground floor, near the return-air vent. And I find that for each rise of about 12° in the outdoor temperature, I must lower the thermostat by 1° in order to maintain the same temperature as indicated on the thermometer on the thermostat. This applies both in A/C season and in heating season. When the outside temp rises to the point where I switch from heating to A/C, I must raise the thermostat by about 2.5°C to maintain the same indicated temperature. This means there are two temperatures outside where the setting I use matches the indicated temperature: they happen to be about -2°C in winter and about 28°C in the summer.
- Right now it's set for about 20° and the thermometer is reading a fraction over 21°, and it's about 6° outside. --Anonymous, December 11, 01:53 (UTC).
Hysteresis is your answer. When you are colling your house, the house starts warm and is cooled to the set point. It then has a lag and differential mostly to protect cycling the compressor but that lag means the house is warming above the setpoint. The opposite happens when the house is heating. This will make a heating cycle seem colder than the cooling cycle even if the set point is the same. It's a prodcut of the control algorythm. --Tbeatty 02:28, 11 December 2006 (UTC)
- No, this does not suffice to explain the effects I described. Thanks anyway. --Anon, Dec. 12, 03:50 (UTC).
- The effects you described are indeed strange! Is yours a "conventional"/analog thermostat, or a "modern"/digital one?
- If it's conventional, my first guess is that its thermometer and the temperature sensor in its thermostat proper (which in a conventional thermostat are typically utterly separate) are simply differently calibrated. Ar first blush a 1:12 ratio seems large, but I don't actually know how badly calibrated the bimetallic temperature-sensing strip in a conventional thermostat typically is. The extra 2½° offset between the heating and cooling modes is easily explained by the fact that those typically involve separate contacts (or separate electrodes in an SPDT mercury switch) which I can easily imagine could be that far off from each other.
- If it's digital, I can only imagine that its programming is trying to second-guess some of the effects described elsewhere on this page, but guessing wrong. For example, as Atlant correctly notes below, the only real way to correct for differing temperature gradients is with an outside temperature sensor, which is obviously out of the question for a simple, self-contained, consumer device. But it wouldn't surprise me if a programmable thermostat tried to get clever and correct for this effect using some kind of heuristic -- although offhand I'd expect the slope of its self-imposed correction to be different in the heating versus cooling modes, not in the same direction as you've described.
- Also, digital thermostats I'm familiar with (including the one I have) often have a switch on the back or a mode flag deeply hidden in one of their menus which lets you specify whether you're using oil or gas heat, or forced air vs. hot water vs. steam, or things like that. I've presumed that these settings adjusted the thermostat's heuristics which attempt to correct for the differing inertia and overshoot effects of these various heating technologies. So if your thermostat has such a switch or mode, it would definitely be worth playing with it to see it it makes any difference.
- Is the desired temperature you've collected this data on always 21°, or has it varied? (Stated another way, do the relationships you've observed apply across one fixed, flat, desired temperature, or anywhere?)
- Hmm, rereading what you wrote, I see you said "set for about 20°" and "reading a fraction over 21°", which sounds more like a conventional analog thermostat. Oh! And you even said it's conventional! Duh. So my speculation about differential calibration of separate components stands. —Steve Summit (talk) 18:54, 12 December 2006 (UTC)
- Thanks for the excellent answers. Incidentally, "Anonymous" isn't me, but apparently somebody else with a similar problem. I wonder, is there a system which uses an outside thermometer to adjust the inside thermostat ? It's quite annoying at present to have to get the weather forecast and set the thermostat accordingly, or risk waking up either shivering or sweating. StuRat 08:38, 11 December 2006 (UTC)
- Yes, several vendors sell high-end thermostats that have outside air sensors as well as indoor air sensors. Once you have those, the control system can do all sorts of things better such as:
- Determine the expected heat loss from the house and so calculate approximately how long the heat must run to compensate for that loss (in other words, be pro-active and not just reactive). And it can do this based on history that it has accumulated about your particular house.
- Determine trends in outside air temperature so if the temperature starts dropping rapidly, it can queue up some heat ahead of the outside walls becoming cold.
- With the aid of an indoor humidity sensor, determine just how much moisture a humidifier can put into your house's air without undue condensation on the windows or in the walls.
- Honeywell certainly sells such devices.
- You want a PID controller. And the ability to tune the coefficients. --Tbeatty 03:17, 12 December 2006 (UTC)
Thanks again ! StuRat 05:02, 13 December 2006 (UTC)
Salt and Pepper
how can salt and pepper be separated? —Preceding unsigned comment added by Angelp9 (talk • contribs)
- Well, if you have a really strong "pepper magnet", you could pass it over the mixture and separate them. Or maybe another tack: is there a substance which reacts with one and not the other? --- Deville (Talk) 16:06, 10 December 2006 (UTC)
- Static electricity. For example, charge a hair comb and pass it over the mixture; it will attract the pepper. P.S.: After you win the bar bet, you owe me 10% of your winnings.
- If it's fine white pepper I guess you could just winnow it (i.e. blow on it), or shake the mixture through a fine mesh.--Shantavira 16:57, 10 December 2006 (UTC)
- I wonder what happens if you try to dissolve it. My hunch is that the pepper will float on top or at the very least will form a suspension whilst the salt will dissolve. Run the stuff through a paper filter to aquire the pepper and let the water evaporate to get the salt. Can anyone confirm my hunch? PvT 17:08, 10 December 2006 (UTC)
- The best method depends on your goal: do you want to recover the salt and discard the pepper, discard the salt and recover the pepper, or recover both with minimal losses to either? —The preceding unsigned comment was added by Keenan Pepper (talk • contribs) 19:31, 10 December 2006 (UTC).
- The solubility thing sounds like the best idea, if you don't mind getting the materials wet. If you can't do that (if redried pepper doesn't suit your purposes) use the Brazil nut effect. When you have a mixture of lots of small solid objects like this, vibrating/shaking the mixture will cause a sorting to occur - smaller objects will sink to the bottom, larger objects will rise to the top. The salt grains will be pretty much the same size as one another, the pepper grains of a variety of sizes (it depends on the milling process that ground them). So doing this will likely produce a layer of pepper (the big grains), a layer of salt, and a layer of pepper (the small grains). Skimming off these layers will (largely) separate the salt from the pepper. The salt will be adulterated with pepper grains of a very similar size. If that's an issue (if you require a better seperation) put the mixture into a tall thin container and repeat the vibrate-and-skim process. This will never be perfect (the range of salt grain sizes will likely overlap the range of pepper grain sizes) but you should be able to get to about a 95% separation. -- Finlay McWalter | Talk 19:45, 10 December 2006 (UTC)
- Or perhaps cyclonic separation, which also relies on particle size. There's surely a dry process which can additionally exploit the difference in densities between particles of salt and those of pepper (which have already been sorted to be of roughly the same size). Centrifugal separation works for liquids and gasses; I don't know if it's possible to do it with particulates. -- Finlay McWalter | Talk 19:52, 10 December 2006 (UTC)
To separate anything, you rely on the differences between them. Solubility has already been mentioned. Density is the other difference. A simple air separator as used in thrashing or a combine should also work. --Zeizmic 20:29, 10 December 2006 (UTC)
- If you want perfect separation and don't have any kind of time limit, a magnifying glass and a pair of tweezers is your best bet. Confusing Manifestation 10:14, 11 December 2006 (UTC)
- But see the Terrible Trivium in Norton Juster's The Phantom Tollbooth.
- Is the pepper ground or whole peppercorns? 80.169.64.22 16:45, 11 December 2006 (UTC)
Homozygous and Heterozygous mutations
What percentage of individuals will show a heterozygous or homozygous mutation? —The preceding unsigned comment was added by 71.241.210.8 (talk) 17:45, 10 December 2006 (UTC).
- 100%. A mutation is a genetic difference. We are all different. alteripse 18:52, 10 December 2006 (UTC)
- It depends on the specific allele you're talking about. For a start see the Hardy-Weinberg principle. Also, remember that the more related two individuals are the greater odds that their offspring will show homozygosity. Also see heterozygote and coalescent theory. Hope that helps. --Cody.Pope 20:32, 10 December 2006 (UTC)
Chemistry joke.
I'm wondering if anyone could explain a joke made on xkcd to me. A man hands another an apple. He takes a bite, and finds it is solid. The first man informs the second that it is an apple infused with tin, and that "those of you who know your periodic table should be laughing about now." I don't know my periodic table. What's the joke? Pesapluvo 17:51, 10 December 2006 (UTC)
- Here is the comic. Tin's chemical symbol is Sn. Geddit? If not, highlight or click this: Sn + apple = snapple. Weregerbil 18:16, 10 December 2006 (UTC)
- Yeh, the jokes based around it being a snapple, without mentioning this it wont makes sense. Philc TC 18:27, 10 December 2006 (UTC)
"Why does Snapple call their drinks cran-apple and cran-raspberry ?"
"Because crapple and crassberry didn't sell well." StuRat 08:26, 11 December 2006 (UTC)
Sn apple Sn = tin
dSLR Lenses
Hey,
I'm looking at a few dSLRs. Among them, I'm looking at the Nikon D40 and the Canon Digital Rebel XT ( :O Price difference!) Anyways, I was looking at the lenses that come with these and they're all f/3.5-5.6 iirc. That seems like a terrible aperture range for a lens. Am I misunderstanding something, or should I think about saving up, buying only the body, and getting a better lens? In that case, do you have any recommendations? I'm already really stretching my budget by moving up to low-end dSLR (I was originally looking at a Sony DSC-H5), so an extra lens would require more saving. Thanks — Ilyanep (Talk) 19:36, 10 December 2006 (UTC)
- It depends on what you want from your camera. Better lenses always mean better images, but if your just going to be pointing and shooting and using a flash most of the time, there's no need to even get a digital SLR. Also remember, you can get a fixed focal length lens with a big aperture range for cheaper. So you might want to get the all purpose mid-range lens now, and save up for the better lens later. --Cody.Pope 20:40, 10 December 2006 (UTC)
- Oh and I'd add that most old Nikon lenses work with the new digital models. So you could get used lens for a the D40. --Cody.Pope 20:52, 10 December 2006 (UTC)
- You DO want a good sensor. Without it, a camera is nothing but garbage.
- You may buy a reasonably good zoom lens at first. An average lens and a good camera body. Try to upgrade the lens if you have money. You can hardly upgrade the sensor (i.e., buy a new camera body).
- You may buy 2nd hand film-camera SLR lens.
- You can reuse your old lens if you already have one.
- You can learn to maximize the usability of your only lens.
- Buy the best camera body you can afford.
- By the way, how about buying a cheap bridge camera? You may save some money now and use the money next time when you buy your DSLR. If I only have $1000. I may buy a good bridge camera and a large memory card for $400-$500 and use the saved money on traveling. -- Toytoy 22:35, 10 December 2006 (UTC)
- The Sony that I was looking at is basically a bridge camera, but I decided that if I was going to spend $500 on a camera, I might as well save up a few hundred more and get a "real" camera. The reason I want to get the Rebel XT is because it is a very good sensor and body. The only thing is that the lens' aperture range seems small. And any SLR lenses I look at either have a fixed aperture or a really small range as well. Is there no SLR lens that'll give me something like f/2.8 or 3.5 to at least f/6.3 or 7.1? Do lens manufacturers assume that I will have multiple lenses? — Ilyanep (Talk) 23:34, 10 December 2006 (UTC)
- (Or is this perhaps a stupid question to ask as far as dSLR lenses go?) — Ilyanep (Talk) 23:37, 10 December 2006 (UTC)
- Wait...so if a lens says it has an aperture of f/2.8, does that mean it's fixed at that aperture? Or can it be changed? I get the feeling that I'm confusing something. — Ilyanep (Talk) 23:49, 10 December 2006 (UTC)
- And also, does f/3.5-5.6 mean that it's minimim 3.5 at it's minumum focal length and minimum 5.6 at fully extended? Because I read it to mean that's the entire range of the aperture. I guess I was drowning in confusion. — Ilyanep (Talk) 23:51, 10 December 2006 (UTC)
- Yes, f/3.5-5.6 means what you just said (i.e. it's minimum 3.5 at it's minimum focal length and minimum 5.6 at fully extended). The upper limit is almost always around f22 or a little higher. It's the lower limit that is important. The f-stop is almost never ever fixed, it's the focal length that is usually fixed to get a larger aperture hole (i.e. smaller f-stop number and more light.) --Cody.Pope 01:31, 11 December 2006 (UTC)
- Yes, that is definitely a bad misunderstanding on my part. In that case, I think I may want to find a lens with ~f/3.6 and hopefully a focal length of about 22-100 , and then buy just the body with the lens. — Ilyanep (Talk) 06:06, 11 December 2006 (UTC)
- Get yourself a two-lense kit. Something like body + 18-55 + 55-200 (55-300 maybe). If you don't particularly care about the BEST image quality, a superzoom might be to your liking (something like 3.5-5.6 18-250mm comes to mind.) Horst.Burkhardt (talk) 07:06, 14 January 2009 (UTC)
- Whoa. I just realised this had cobwebs. Sorry. Horst.Burkhardt (talk) 07:43, 14 January 2009 (UTC)
Symptoms of insufficient sleep
I'm curious as to why I feel nauseated and get headaches when I have had less sleep than I would "naturally" obtain (e.g. due to being woken prematurely by an alarm clock), and how many other people (as a rough proportion of the population) are affected similarly. Available remedies (other than sleeping more) would also be appreciated. —The preceding unsigned comment was added by 74.134.236.157 (talk) 20:03, 10 December 2006 (UTC).
- Sleep and sleep deprivation should tell you why your body is reacting this way. Basically, losing sleep is a bad thing. --Zeizmic 20:31, 10 December 2006 (UTC)
- It is a kind of self-defense, like pain. Pain is necessary to warn us if something goes wrong, or if we need something essential for our survival. Sleep is essential for our brain, so our body tries to warn us if we are not getting enough of it, and with the use of nausea it even tries to persuade us to sleep. My guessing above is based on a comparison with artificial neural networks. Try to maintain, for example, a binary search tree, without equalizing it from time to time. Try using a hard disk for years without defragmenting it. As I know, an artificial neural network will collapse if it never "sleeps". (it is not reorganized, rebalanced, etc.) This must be true for biological neural networks too. They get so many sensory information, that they need rest to reorganize themselves. See the article on sleep. --V. Szabolcs 20:47, 10 December 2006 (UTC)
- Thanks for both your answers; however, I've noticed that the sleep deprivation page does not explicitly list "headache" as a symptom, which leads me to further question how "normal" this is. I'd be really interested to know, though (and I acknowledge this is getting OT) what you mean by "sleeping" for ANN--do you have any references to papers on this? All the ANNs I'm familiar with beyond simple perceptron are "opaque" and thus I'm curious how they could be dynamically "rebalanced" or reorganized (certainly one can change the structure of the network to boost performance, but as far as I know this requires retraining). 74.134.236.157 22:23, 10 December 2006 (UTC)
- Symptoms of dehydration include headache and fatigue. (Probably lots of other medical conditions as well, though.) Though I've personally also gotten headaches from what I think was just lack of sleep. -- Beland 23:54, 10 December 2006 (UTC)
I googled 'lack sleep headache' and found this was an extremely common effect of lack of sleep. --Zeizmic 01:58, 11 December 2006 (UTC)
You may be familiar with the expression 'bright-eyed and bushy-tailed'. I think that anything being other than 'bright-eyed and bushy-tailed' will be symptomatic of less-than-ideal sleeping patterns. Mathiemood 16:35, 11 December 2006 (UTC)
Static electricity?
How did people explain static electricity before the emergence of modern science? A small devil in your wool coat? -- Toytoy 22:17, 10 December 2006 (UTC)
- Our article History of electricity discusses electricity in ancient times to modern, but does not go into depth as to exactly how the ancients described it (ie demons versus fluid). Thales (ca. 624 BC–ca. 546 BC), is credited with discovering that amber (elektron in Greek) which we now know to be an insulator, when rubbed with fur acquired the ability to attract feathers or bit of fluff. Per none of his writings have survived, so right there we lose the ability to determine whether he thought a "fluid" was involved or some other interpretation. Thales says , however, that before him philosophers explained phenomena as the acts of gods, while Thales sought to explain them as the functioning of natural phenomena, without reference to the supernatural.However, the article Thales attributed to him the notion that the magnet or amber attracts things because of a property of a"universal substance of mind" within the object, not quite like modern physics. Per Aristotle noted the production of electricity by certain marine animals. Electricity is not mentioned in Physics (Aristotle) nor did I find the term in his books on physics as cited in that article. I found no mention of electricity in Roger Bacon (c.1214 – 1294), a noted early scientist. By the 1600's electricity was described as a fluid, or fluids specific to every different way of generating electricity. Benjamin Franklin notably determined electricity to be one fluid present to a lesser or greater degree. Edison 15:49, 11 December 2006 (UTC)
Why are mice eyes like black or red beads?
Humans and many other animals have eyes that have pupils, irises, and whites. But mice and similar animals do not have these structures, Their eyes look like black beads. Why is this please? 81.104.12.16 22:25, 10 December 2006 (UTC)
- Well, mice are mostly nocturnal, so having bigger eyes and a larger possible pupil opening is probably adaptive for night living. Also, most animals don't have human-like eyes. If fact a recent study suggests that we humans have the unique eye appearance. --Cody.Pope 22:33, 10 December 2006 (UTC)
- Rodents certainly have pupils and irises, and I'd hazard that you might find sclera (whites) as well. It's just that in some case, it's hard to distinguish the structures. Our black gerbils have deep brown irises and, of course, black pupils. But they've got 'em.
How was cheese invented when pre-Roman population lactose-intolerant?
Only comparatively recently have human been able to drink milk. In Roman times, for example, milk was used as a laxative. So was cheese invented before people began to regularly drink milk? 81.104.12.16 22:34, 10 December 2006 (UTC)
- Fully cultured cheese has very little lactose. --68.163.200.64 23:48, 10 December 2006 (UTC)
- Sorry, I wasn't logged in for some reason. --Cody.Pope 01:23, 11 December 2006 (UTC)
- Yes, bacteria cleave lactose molecules into more readily-digestible particles. However, cheese is fattier than milk, so you can't just rely on cheese all the time. You might end up looking like Scarlett Johansson, eww. Mathiemood 00:33, 11 December 2006 (UTC)
- She was kinda hot in the Island.--Cody.Pope 01:22, 11 December 2006 (UTC)
- To be totally honest, there have been brief moments in my life when I thought Scarlett was not wholly unattractive. :) Mathiemood 16:37, 11 December 2006 (UTC)
Is it really a fact that lactose intolerance in much less prevalent now, compared to 2000 years ago? How could that be determined? ike9898 18:17, 11 December 2006 (UTC)
- There's some info on the lactose intolerance page. See also the recent NYTimes extlink from that page. DMacks 18:40, 11 December 2006 (UTC)
- I am with Ike in his or her cynicism. Mathiemood 18:45, 11 December 2006 (UTC)
Pure speculation here...I think that if you don't take precautions against it, milk collected from an animal and stored in an open container at ambient temperatute will begin to ferment pretty quickly. It won't turn into cheese, but you can get a yogurt or kefir type product. It seems reasonable that lactose intolerant people would discover that fresh milk upsets their bowels but day old milk was less of a problem. In fact, I think it is only fairly recently that people have understood how to prevent fermentation of stored milk. So, I think the answer to the original question could be yes. ike9898 21:30, 11 December 2006 (UTC)
Supplementary prescribing.
I am about to start a career as a Clinical Respiratory Physiologist. I wanted to know whether the option to supplementarily prescribve was open to me, and if not, who is it open to? I googled it and all I could see were nurses and pharmacists. I am fro the UK by the way. Chistopher
- Peculiar question. I assume if you don't know this, you are starting school, rather than finishing school and beginning your career. Ask one of your instructors. Most, if not all, health care professional training involves exposure to real people performing the job you are training for, so eventually you will see whether clinical respiratory physiologists prescribe in the UK. I assume this is the UK equivalent of what in the US we call a respiratory therapist, and they do not have independent prescribing privileges here. alteripse 02:16, 11 December 2006 (UTC)
I am just about to start a job as a Trainee Clinical Respiratory Physiotherapist so haven't yet met any instructors. I was just wondering, as to the future of my career. —The preceding unsigned comment was added by 130.209.6.40 (talk • contribs).
The whale
Evolutionarily speaking, how and why did the whale become so big?
- Good diet, plenty of exercize, and not smoking. B00P 23:23, 10 December 2006 (UTC)
- Well -- look how big the oceans are. Also, water-born mammals can get much larger than land-born animals, it's a matter of physics and/or density. Mathiemood 00:31, 11 December 2006 (UTC)
- When you're not fighting gravity (by virtue of being supported by water), your size is far less limited than land or air animals.
- Harder to get eaten when you're so big I guess. Vespine 00:44, 11 December 2006 (UTC)
These explanations don't explain why krill and plankton are so small, or why the vast majority of sea creatures are nowhere near as large as whales. JackofOz 01:16, 11 December 2006 (UTC)
- I daresay that the Sea is the cradle of life -- it is natural for there to be both immense and infinitesimally-small creatures living harmoniously within it. Mathiemood 16:40, 11 December 2006 (UTC)
- Also check out: Evolution of cetaceans --Cody.Pope 01:20, 11 December 2006 (UTC) And also see Ecological niche. Whales may be so big just because nothing else was that big anymore. --Cody.Pope 03:26, 11 December 2006 (UTC)
- There can only be so many top-level predators.
Each size represents a different evolutionary niche. All possible niches tend to eventually be filled. Their methods of eating, where they either use baleens to filter out plankton or catch many fish at once, are both quite efficient, allowing them to get very large. Floating on water has many advantages that overcome size limitations on land. The buoyancy of the water means they don't need to have a skeleton system capable of supporting their own weight. Large whales which are beached, in fact, can't support their own weight and are thus crushed under it. Movement through water also can be accomplished with slow, rhythmic motions, while movement on land requires more complex and variable feedback to "balance" on legs. This would be a problem for a very large creature, as the speed of the nervous system wouldn't provide for rapid enough control and feedback for control on land. Thermal control is also easier in the water, as ocean temperature is less variable than air temperature. One of the main advantages of size is that it provides protection from natural predators. StuRat 08:15, 11 December 2006 (UTC)
Try looking at article Jumbo Whales. E Liquere 02:55, 15 December 2006 (UTC)
December 11
Antimatter Production
Okay so if we built a particle accelerator around the equator of the Moon and it used superconducting magnets, how long would it take to produce one gram of antimatter? Of course using the trapping methods of todays traps. I'm asking this because I was reading the CERN article on antimatter and they talked about it taking about 100,000 years to produce one gram of antimatter with current accelerators.67.126.143.136 23:25, 10 December 2006 (UTC)
- Look at limiting parameters: how much electrical power is available to run the thing? Edison 15:54, 11 December 2006 (UTC)
Well lets say they developed a fusion power plant?
Vitamin C/citric acid
Are they the same thing, are they essentially the same thing, are there greater differences, or do they have no or little relation to each other? --Fbv65edel / ☑t / ☛c || 02:34, 11 December 2006 (UTC)
- Not the same at all. See the vitamin C (ascorbic acid) and citric acid articles. --David Iberri (talk) 02:53, 11 December 2006 (UTC)
- The quick-reference info box on the upper-right of each page lists the chemical formula of each, which is noticeably different. DMacks 04:16, 11 December 2006 (UTC)
horseshoe crabs
The article says: "The blood of horseshoe crabs is blue, which is a result of its high content in copper-based hemocyanin instead of the iron-based hemoglobin found, for example, in humans." Are there any other biological or synthetic means of transporting oxygen and if so what are they? Adaptron 04:53, 11 December 2006 (UTC)
- Biological - many arthropods use hemolymph to circulate oxygen and nutrients. Synthetic - there are many. A pump in a fish tank serves to circulate oxygen into the water, for example. BenC7 10:54, 11 December 2006 (UTC)
- The Hemolymph references says, "Hemolymph fills all of the interior hemocoel of the body and surrounds all cells. Hemolymph is composed of water, inorganic salts (mostly Na+, Cl-, K+, Mg2+, and Ca2+), and organic compounds (mostly carbohydrates, proteins, and lipids). The primary oxygen transporter molecule is hemocyanin." Is this the basis for the claim that wearing a copper bracelet is beneficial? Also although Seejyb's answer is closer to the answer I was looking for the thought came to mind as the result of your answer as to whether there might be or is a solid or liquid phase oxygen producer that could be transported by the blood to oxygenate the cells directly along with a corresponding carbon dioxide absorber? Adaptron 20:38, 11 December 2006 (UTC)
- Hi Adaptron, If you look up the article on hemoglobin, the section on "Other biological oxygen-binding proteins" gives you a list of the oxygen carriers found in animals, with further links. As far as artificial carriers are concerned, there is a good article available on the net, titled "Blood substitutes".The latter may be more than you ask for, but come back and ask again if you get confused. --Seejyb 13:04, 11 December 2006 (UTC)
- Hi Seejyb, and thanks very much for your references. The Blood substitutes reference is very clearly written and provided much of what I wanted to know except for empirical efficiencies. Nitrogen capacity was expressed for the comparative solubility of nitrogen of perfluorocarbon versus plasma but without empirical comparative data. Since treating decompression sickness is mentioned I was wondering whether any substitute is likewise used in sports medicine for its treatment or enhancement capability. Adaptron 20:38, 11 December 2006 (UTC)
Even plants are known to get in on the action. See Leghaemoglobin, Legumes use it to feed oxygen to bacteria in nitrogen fixing nodules. David D. (Talk) 00:17, 12 December 2006 (UTC)
3 questions
1) whats causing the universe to expand?
2) is it possible to live with radiation? (think the hills have eyes)
3) the brain grows with intelligence, but can it grow enough to effect the size of the skull?
PitchBlack 06:05, 11 December 2006 (UTC)
- 1) Start with Big Bang, not sure what you mean by causes, but there are a few theories out there about why it seems to be growing at a faster rate.
- 2) See Nuclear fallout, we're all living with a little bit of radiation today! There are, of course, lethal doses though.
- 3) Check out Human skull. The brain doesn't really grow with intelligence, it grows as we age but once the skull plates fuse your head can't get any bigger. --Cody.Pope 06:41, 11 December 2006 (UTC)
1) Inertia left over from the Big Bang causes the universe to continue to expand (an object in motion stays in motion unless another force acts upon it).
2) People are highly variable in their ability to withstand differing levels of radiation. At high doses, people can die quickly of radiation poisoning. At lower doses, the person recovers from radiation sickness, or doesn't have any symptoms in the first place. However, genetic damage may have been done which ultimately leads to cancer or other problems.
3) When people say the brain "grows with intelligence", they mean more connections are formed between neurons, not an overall increase in the brain's volume. StuRat 08:00, 11 December 2006 (UTC)
- The answer to this question is actually a qualified "yes". In nearly all infants the skull simply grows with the brain, and there is a strong statistical relationship between learning in infancy and skull size at 1 year of age. Severe deprivation can impair both intelligence and head size, but the relationships are complex. alteripse 12:41, 11 December 2006 (UTC)
- 2. It depends on how much radiation, what kind of radiation it is, where it is coming from, and what you consider "living with" to mean (many radiological exposures will not kill you or produce any obvious symptoms immediately, but in a few decades time you will find statistically much higher rates of cancer, birth defects, etc. in the exposed population. See Project 4.1 for one description of such a population). --140.247.251.173 16:46, 11 December 2006 (UTC)
cannons
How Cannons are working? Principle of Cannons.
- See cannon. Basically, some explosive is detonated behind a ball, shell or lead shot, inside a cylinder, causing high pressure, which accelerates the projectile(s) out of the end of the cannon at high velocity, where it undergoes ballistic motion, following a roughly parabolic path to the target. A cannon typically fires at an angle less than or equal to 45 degrees, while a mortar first at higher angles. StuRat 06:44, 11 December 2006 (UTC)
Request for Equivalent Specification
Dear Sir,
Please help me to know the equivalent Indian or other standard for Eyebolt DIN-444. I am waiting for your response.
Thanking you.
Sanju Balial.
Searching the internet for "DIN-444 eyebolts" gave a number of sites of sellers, which list other standards alongside the DIN-444. The specifications themselves are not free. --Seejyb 13:30, 11 December 2006 (UTC)
Surface Tension
What is Surface Tension? —The preceding unsigned comment was added by 61.16.202.125 (talk • contribs).
- That property described in the article cleverly entitled surface tension.
For a brief summary, it's the force that makes water (or any other liquid) form into droplets and also allows light objects to rest on the "skin" of the liquid instead of sinking. Some insects can even walk on the surface of water, using surface tension. StuRat 19:00, 11 December 2006 (UTC)
- On the other hand, it could describe someone who can hide his/her inner calmness. Clarityfiend 06:35, 12 December 2006 (UTC)
lighting
if a lamp has a luminous intensity of 1200 candellas acting as a point of source what would be the illuminance in lux at a distance of 6 meters and what would be the problems of associated human comfort in this lighting many thanksAcnbrewerg 14:41, 11 December 2006 (UTC)
- We don't answer homework questions here, sorry. Try looking in your textbook's chapter on it. X (DESK|How's my driving?) 15:25, 11 December 2006 (UTC)
- You can find info on this topic at Luminance, Luminous intensity and Lighting. Please come back with any more questions you have after reading those articles. Edison 15:59, 11 December 2006 (UTC)
Natural Selection theory without 'agency'?
Under 'Natural Selection' I read "It works on the whole individual, but only the heritable component of a trait will be passed on to the offspring, with the result that favorable, heritable traits become more common in the next generation".
Do traits relate to behaviour or only physical characteristics like eye colour? I observe that among humans it is behaviours (link character 'traits') that inclines for success in reproduction - and that the parents usually carry a huge role in propagating behavioural traits including those around 'religion' and 'values' etc.
It seems to me that any account of natural selection in 'modern humans' must necessarily be incomplete and handicapped without reference to transmission of traits that may be non heritable but definitely transmitted across generations...?
Gomackay 16:50, 11 December 2006 (UTC)
- Biological evolution with natural selection applies to heritable traits including heritable behaviours (things like wasps building nests. dogs hunting in packs, birds singing a specific type of song). The very great majority of human behaviours aren't genetically inherited, they're acquired through learning. So one might have a basic biological propensity for building things or for having religious feelings, but the design of a bridge or the philosophy of a religion are obviously not something one is born knowing. While natural selection still applies to modern humans, and evolution is still occurring to us, its effects are obscured (and mostly overwhelmed) by artificial selection factors. -- Finlay McWalter | Talk 16:59, 11 December 2006 (UTC)
- See also Social Darwinism. Hipocrite - «Talk» 17:24, 11 December 2006 (UTC)
I think one of the ideas you are hitting on are Memes. The idea that ideas are "heritable" and undergo natural selection like processes is controversial, but to me it makes sense. Sifaka 21:53, 11 December 2006 (UTC)
While the details of many specific human behaviors are learned, humans can have genetic predispositions towards certain patterns of behavior. Twin studies suggest that some human behavioral patterns have a very high level of genetic predisposition. Some genetic studies have been interpreted as indicating that people can be genetically predisposed to religious belief, prompting interest in neurotheology. --JWSchmidt 01:48, 12 December 2006 (UTC)
Human body temperature
Frequent reference desk responders may wish to review hidden comments below
Hi, many of my friends are health care professionals, but none has ever been able to answer this question. My resting, healthy, body temperature (measured under the tongue) is 97.2 F. I've contracted a virus, and today my temperature has gone up to 98.6 F (I feel pretty rough!). Is this the equivalent of a 100 F fever in a person whose 'normal' temperature is 98.6 F? Thanks in advance L.Parry
- You will find a great deal of information on body temperatures at Thermoregulation. Can you read that and come back with your question again if you need more info? Hipocrite - «Talk» 18:01, 11 December 2006 (UTC)
- Following our articles, I got to which looks helpful. Hipocrite - «Talk» 18:02, 11 December 2006 (UTC)
The fact the nobody has ever created 'absolute zero' conditions, and freely admit that such a thing is impossible, goes a long way in deconstructing the entire notion of temperature. To be hot is to be hot, to be cold is to be cold, and metabolism is pretty much the only thing worth mentioning when it comes to humans and body temperature. Just my 2 pents. Mathiemood 18:48, 11 December 2006 (UTC)
- The above comment is inaccurate. Please see Absolute Zero and Bose-Einstein condensate. Hipocrite - «Talk» 19:06, 11 December 2006 (UTC)
- Your spelling of inaccurate is inaccurate, Hipocrite :) Mathiemood 19:24, 11 December 2006 (UTC)
- What do you mean "deconstructing the entire notion of temperature"? That phrase makes no sense to me. —Keenan Pepper 19:32, 11 December 2006 (UTC)
- As far as I can tell, he;s basically implying that temperature is merely the human manifestation of thermal energy (just like Centrifugal force is a human manifestation of an imagined force). However; temperature certainly exists in some contexts, indeed it is the only way to make many thermodynamic systems make sense: a bathtub full of lukewarm water has more thermal energy than a small piece of red-hot metal, yet when the metal is dropped into the water, the energy is transferred from the lower energy metal to the higher energy water! This makes far more sense when you think in terms of temperatures; the energy which manifests itself as the 900°C of the metal goes to warming up the 30°C bathwater, but since the metal only has very little energy compared to the water (due to specific heat capacity), the bath only warms slightly. Laïka 17:40, 12 December 2006 (UTC)
I believe you are correct, if your temp is 1.4° F above normal, then you have a fever. My dad has something similar, but on BP. His is normally what would be considered high. When we let a doctor take action to bring it down to what is considered "normal", he almost passed out. Doctors tend to treat people as if "one size fits all", when it does not. StuRat 18:55, 11 December 2006 (UTC)
- Please review Hypertention for more information on elevated human blood pressure. Hipocrite - «Talk»
- "<!-- A user has alleged that the comment directly below are speculative and inaccurate. Consider removing them, and not posting comments of this type in the future. -->" If anyone thinks a comment is inaccurate, just point it out. There's no reason to secretly tell users to delete it. --Bowlhover 22:43, 11 December 2006 (UTC)
- On the other hand, enzymes and stuff denature at a nonvariable temperature, so in that respect your low body pressure makes you lucky. --AstoVidatu 01:47, 12 December 2006 (UTC)
solid state pulsed laser
What's the simplest configuration of solid state laser that you can think of, and how easy would it be to find the components necessary to build one?--172.145.22.246 19:36, 11 December 2006 (UTC)
- And yes, I know, please see our article on lasers, or Solid-state lasers, except that wasn't my question (: --172.145.22.246 19:43, 11 December 2006 (UTC)
- Please see our article on Laser construction.--138.29.51.251 03:03, 12 December 2006 (UTC) (just kidding, sorry I couldn't help)
What are cleaning erasers made from?
Anyone know how those Mr. Clean Erasers work and what they are made from? They seem like simple latex foam. --24.249.108.133 19:46, 11 December 2006 (UTC)
Formaldehyde-Melamine-Sodium Bisulfite Copolymer. No joke. . Hipocrite - «Talk» 19:52, 11 December 2006 (UTC)
- That's hilarious! :) Vespine 21:49, 11 December 2006 (UTC)
- I don't get it? -Username132 (talk) 00:33, 12 December 2006 (UTC)
- The common name is melamine. Tuckerekcut 22:37, 11 December 2006 (UTC)
- That's hilarious! :) Vespine 21:49, 11 December 2006 (UTC)
- So is it pure melamine or is it Formaldehyde-Melamine-Sodium Bisulfite Copolymer?? Magic Eraser. --Russoc4 22:44, 11 December 2006 (UTC)
- The melamine is the base ingredient - I believe it is bound to formaldehyde and sodium bisulfite as a copolymer. Hipocrite - «Talk» 23:03, 11 December 2006 (UTC)
Sleep apnea and oxygen deficit
Frequent reference desk responders may wish to review hidden comments below
I've read in several places that people with sleep apnea can have depleted blood oxygen all the time, but I have never read how this works? I can understand building up an oxygen deficit during sleep, but doesn't it get restored to normal during waking hours? Anchoress 21:02, 11 December 2006 (UTC)
- I can take a guess. I'd think that the mechanism which tells them to breathe is "tardy", waiting longer than it should. This would cause them to breathe less during the day and night. Of course, they can force themselves to breathe more often for a little while, but nobody could do that for long. StuRat 21:50, 11 December 2006 (UTC)
- Actually, frequent drops in blood oxygen (during sleep) can cause damage to the heart and lungs, along with a variety of other possibly mechanisms. See "Sleep Apnea and Cardiovascular Disease", Am J Respir Crit Care Med Vol 164. pp 2147–2165, 2001, to get started. Hipocrite - «Talk» 23:00, 11 December 2006 (UTC)
- Hey ms a, that reference says "Studies of patients with CHF and CSR–CSA have consistently shown them to be normoxic while awake (194, 214).", so maybe you can look for "Pickwick syndrome / Obesity hypoventilation syndrome" (I don't see a WP article on this) or "cor pulmonale" (advanced). Both can cause daytime/awake hypoxemia. The former is a cause of sleep apnoea, the latter a possible result. Let me know if you want to know more. --Seejyb 00:40, 12 December 2006 (UTC)
- OK thanks for all the answers, I'll get reading. Anchoress 00:43, 12 December 2006 (UTC)
- Correction, there is an article about Pickwickian syndrome, but that is about history, not modern ideas. --Seejyb 00:52, 12 December 2006 (UTC)
Physics question- building a crane
Can u design it as much simple as possible ? I am not good in Physics...
Purpose: To design and build a DC motorized crane/ wench to lift a pile of paperclips
I must submit sketches of the design (this is so hard) ...and explain these questions:
what materials do u use and why ? what design features will the crane have and why ? how will the motor work ?
============Anyone can give me the answer for these cause I have no idea how to start or do it +_____+
Or you can give me the website to take a look at it
Thanks a lot for you guys time...I am really stupid in Physics...
- It sounds like you may need more guidance than we're well equipped to offer here. I would suggest talking to your instructor. Friday (talk) 21:24, 11 December 2006 (UTC)
- PS. As for electric motors, see electric motor. There's an explanation there of how they work. Friday (talk) 21:28, 11 December 2006 (UTC)
The simplest crane would have a single beam, anchored with a peg at the bottom, and with a sting at the top that's wrapped around a pin sticking out of the motor. Instead of a hook, you might want to put a magnet on the end (if the rules allow it) to pick up paperclips. Is that enough info ? StuRat 21:38, 11 December 2006 (UTC)
+ ./| . / v hook or magnet string . / . / beam . / motor O + peg ======================
StuRat 21:42, 11 December 2006 (UTC)
This isn't so much a physics question as a practical, hands-on mechanical design problem. If you've never built much of anything, this is going to seem like a forbidding problem. But if you can set aside your uncertainty and self-doubt, and roll up your sleeves and start playing, you'll learn a lot.
Take a look at our Crane (machine) article. Do a google images search on "crane". What are the basic elements of a crane? (StuRat already gave the answer away.) What sorts of materials do you have available to you that you could build a smaller, not-as-strong-but-still-sorta-functional model with?
Did you ever play with Meccano or Erector sets or Lego? Can you get your hands on any of those today? You may have thought they're "just toys", but they're tools, ideal for this kind of learning. (For example, sitting right next to me is a nice new box full of 8288, which I haven't started building yet.)
Good luck! If you have any specific questions, ask away! But as Friday said, if you need lots of help, you really need to ask your instructor. Nobody here is going to do your project for you; you won't learn anything that way. —Steve Summit (talk) 00:55, 12 December 2006 (UTC)
- For the beam, you can try using a long, narrow piece of wood with a trench running lengthwise through it. Put the string into the trench, and glue a thin piece of wood on to cover the trench. Of course, if your project doesn't need to look professional, you can glue paper to cover it instead.
- To secure the beam to the base, maybe you can use nails? Just some ideas. --Bowlhover 04:35, 12 December 2006 (UTC)
December 12
Investigating the etymology of the term Backhoe
Our backhoe page says, "Similar attachments for are still called backhoes even though they are mounted on the front. This is because the name refers to the action of the shovel, not its location on the vehicle; a backhoe digs by drawing earth backwards, rather than lifting it with a forward motion". And personally, I completely agree with this on both points, but I'd like to find some really definitive historical sources explaining how the term arose. (This is for my own curiosity, and perhaps for the Etymology section at wikt:backhoe, not because I'm about to start slapping {{cite}} tags on our backhoe article or anything.)
My own hunch -- and this is what I'd really like to confirm, if it's true -- is that the term "backhoe" was coined in direct opposition to the older steam shovel. If you look at a picture of a steam shovel, such as this one of ours, or this cute one, or this classic one, you can pretty clearly see that the digging bucket faces up, and that the machine digs by lifting up and away. A backhoe, on the other hand, digs by pulling down and back towards the machine. The fact that you don't see steam shovels -- or anything else with that same, old up-and-away action -- any more makes me suspect that the pull-down-and-towards action has been found to be much more effective. (But it had to await the development of modern hydraulics, because a cable-hauled backhoe wouldn't work nearly as well.)
Anyway, I suspect that the word "back" in the name "backhoe" was chosen specifically because of the back-towards-the-machine action, which was backwards from the way steam shovels worked. I suspect that the fact that backhoes are often mounted on the backs of tractors is a coincidence which had nothing to do with the term's coinage (though I could be wrong). But the web searches I've done to try to confirm these suspicions have come up dry.
If anyone can dig up any confirmation for any of this (and preferably more definitive than personal armchair speculation, which is all I've really been doing so far), I'd appreciate it.
(I'm going to raise the same question at Talk:Backhoe, and if I get any immediate answers there, I'll propagate them here.) —Steve Summit (talk) 00:20, 12 December 2006 (UTC)
The American Heritage dictionary 2000says "An excavator whose bucket is rigidly attached to a hinged pole on the boom and is drawn backward to the machine when in operation." I see a few other sites mention the "mounted at back" as the reason for being called a backhoe, but the "pull back" idea seems more rational, since it can be mounted in front or at the back. But then, one would may like to find more original references. --Seejyb 01:16, 12 December 2006 (UTC)
That's a very strange comet indeed!
When William Herschel first saw Uranus, did he note that it was much brighter than any comet with the same size? Uranus is also blue-green with a well-defined edge that's not fuzzy; I wonder how many comets are like that. If Herschel observed comets before (I assume he did since he's a serious amateur astronomer), did he ever remark about the strange appearance of Uranus? According to , it was the famous comet-hunter Messier who pointed out it didn't look anything like a comet. --Bowlhover 04:26, 12 December 2006 (UTC)
- Herschel's logbook entry for the night of March 13, 1781 described it (what eventually turned out to be Uranus) as "a curious either nebulous star or perhaps a comet." (Herschel's quote obviously did not include the preceding wikilink however ;) His next observation of the new object, on March 17th, revealed that it had "changed its place" therefore convincing Herschel that it was a comet. Yes, Uranus is blue-green with a well-defined edge when observed using modern telescopes however, Herschel was using a small homemade reflecting telescope with a speculum mirror that was far inferior to even the smallest amateur instruments made today. Also, at the time, the idea of there being more planets beyond Saturn did not really exist yet. Comets were the only other object known at the time that moved across the sky relative to the stars. It was not until after the discovery of Uranus that searches for more planets became commonplace eventually leading to the discovery of Neptune (in 1846) and Pluto (in 1930). Many other astronomers (including Charles Messier) soon began to suspect that perhaps the newly discovered object was a 7th planet rather than simply a distant comet. Ironically, Herschel was one of the last to concede the object's planetary status. --Nebular110 17:29, 12 December 2006 (UTC)
Particle Accelerators
If the Diameter increases in a particle accelerator does it increase output or if I had a small diameter and boosted up the power would that have the same effect? I am very confused about this thank you for any answers.67.126.141.245 05:14, 12 December 2006 (UTC)
- Larger diameter can achieve greater particle energies for the same amount of input energy. Larger rings can also store larger numbers of particles at a given time, but this is usually a secondary consideration. Dragons flight 09:37, 12 December 2006 (UTC)
- The velocity vector of a particle in a synchrotron changes constantly as the particle follows the curve of the circular track. This causes the particle to lose energy as it emits synchrotron radiation. The amount of lost energy is inversely proportional to the square of the radius of the synchrotron. For this reason the bigger the synchrotron, the less input energy it needs to attain a given particle velocity. Weregerbil 12:57, 12 December 2006 (UTC)
drying a log
hello, I plan on finding a huge yule log in the forest next weekend and bringing it home. I shall attempt to dry it in preparation for burning on the 25th. My question, are there internet sites that concern the process of drying logs at home?
This is what I'm going to try to do:
-bring indoors, surround with electric heaters. -enclose in plastic case with a hole on the top and with salt scattered around it -as the salt absorbs the h2o, I will replace it with more salt
Is there a better method than this? hopefully between the heat and the dessicant salt, the log will dry out before Christmas. Thanks. -John
the rate at which wood dries it primarily a result of surface area and the humidity of the air relative to the wood. I would suggest cutting up a portion of the log to dry totally and then on xmas burning the cut logs to dry the main log. the main log might burn slow but thats no problem. Beckboyanch 06:43, 12 December 2006 (UTC)
- I truly hope that you would cut down a dead tree in the forest, and this would solve your problem. Some woods, such as Birch can burn well when green, White Oak only needs a little drying, but something like Spruce can't be burnt until it's very dry. --Zeizmic 12:39, 12 December 2006 (UTC)
- yea I'm going for a dead tree. So is there a table somewhere of different woods with how they burn when wet?
Singularity size?
What is the volume of the singularity (not the event horizon) of a black hole? Does it occupy a cubic plank? or does it not occupy space (Does the mass slip through space time? or does it so warp space time to render a conventional view of volume irrelevant? Beckboyanch 06:13, 12 December 2006 (UTC)
- Gravitational singularity suggests that a singularity has zero volume, though much of what happens inside black holes is unknown. -anonymous6494 06:46, 12 December 2006 (UTC)
- It also suggests that black holes have infinite density and to have infinite density and a finite mass one must have infinitesimal volume and in a quantum world there is no infinitesimal volume so that doesn’t make sense209.112.216.29 07:19, 12 December 2006 (UTC)
- I think we can not use the terms "size", "distance", "volume", etc. because the space inside the Schwarzschild radius (beyond the event horizon) is NOT a metric space, so these terms have no meaning. --V. Szabolcs 10:44, 12 December 2006 (UTC)
- I don't understand how you can say such things with such certainty. Singularities are theories?83.100.174.70 11:27, 12 December 2006 (UTC)
- No, they have been measured via various means. See our article on black holes. Hipocrite - «Talk» 13:02, 12 December 2006 (UTC)
- I don't understand how you can say such things with such certainty. Singularities are theories?83.100.174.70 11:27, 12 December 2006 (UTC)
- I think we can not use the terms "size", "distance", "volume", etc. because the space inside the Schwarzschild radius (beyond the event horizon) is NOT a metric space, so these terms have no meaning. --V. Szabolcs 10:44, 12 December 2006 (UTC)
- It also suggests that black holes have infinite density and to have infinite density and a finite mass one must have infinitesimal volume and in a quantum world there is no infinitesimal volume so that doesn’t make sense209.112.216.29 07:19, 12 December 2006 (UTC)
estimate temp of room
I have no access to a thermometer. How can I measure the temp of my room within 10 deg F? it 's very cold. -john
- How about a simple solution: buy a thermometer or borrow one from a neighbour. Or is this homework and you are supposed to devise a physics experiment? Weregerbil 12:40, 12 December 2006 (UTC)
- Or you could catch a cricket, and follow Dolbear's Law. Unfortunately, that's assuming it's over 50°. -- Plutor 13:41, 12 December 2006 (UTC)
- yea I was thinking of that but it 's too complicated.
- Or you could catch a cricket, and follow Dolbear's Law. Unfortunately, that's assuming it's over 50°. -- Plutor 13:41, 12 December 2006 (UTC)
- My speculative guess is that you could take an ice cube and time how long it takes to melt completely into water in the room. Then somehow figure out what melting at that rate would indicate about the temperature of the room. Not sure if that would work within 10 degrees, though. --24.147.86.187 14:22, 12 December 2006 (UTC)
- I like this one, perhaps I shall attempt...
- Keep in mind that the humidity and air pressure of the room would affect the results, as well as any airflow. If the room has no circulation, your model must take into account the insulating effect of the surrounding air. If the air is very dry, the ice may sublimate. Air pressure can affect the insulating qualities of the medium the ice cube is in. Finally, drainage is an important consideration. The melt rate would be changed if the water coming off of it was allowed to pool around it. - CHAIRBOY (☎) 18:10, 12 December 2006 (UTC)
- I like this one, perhaps I shall attempt...
"a constant-amplitude, constant-frequency sinusoid in channel k should have identical analysis phases in all nearby channels."
k is the index of the bin of a stft-transformed signal. Can you explain this? i got it from this pdf, but I think that this should be real for any STFT-transformed signal which is a sinusoid in the time domain. tia --Ulisse0 09:42, 12 December 2006 (UTC)
Inventor of the scratchie ticket
Hello
I am interested in the history of the invention of the "scratchie" instant lottery ticket?
Thanks
Yaeli
- Our article on Scratchcard should be helpful. Hipocrite - «Talk» 12:59, 12 December 2006 (UTC)
aqueous copper
I have Cu(H2O)6 in solution, I cool it rapidly and bring the entire thing into the solid phase, what is the structure of the complex I end up with? Would this be the equivalent of doping an ice lattice with copper? 14:26, 12 December 2006 (UTC)172.145.201.173
- You will have to supply some additional information to get an answer to your question. First of all, Cu(H2O)6 can't exist by itself. There must be a counterion - in this case something with a negative charge. How did you prepare this solution? Also what do you mean by "bring the entire thing into the solid phase"? Do you mean crystallization, evaporation, precipitation, trituration, freezing or something else? --Ed (Edgar181) 14:57, 12 December 2006 (UTC)
Help me prove the Earth (and Universe) is over 5,000 years old
A coworker of mine is an Ultra-Orthodox Jew. He doesn't believe in evolution, but putting that aside, he also says that the Earth is 5,000 years old. I've argued with him about this several times. My favorite argument is that, given the speed of light, the vast majority of stars we see are more than 5,000 light years away. He counters that god could have created the light mid-stream. (To which I've countered, why would he do such a thing -- just to confuse us?)
What other arguments (that a layman would understand) might convince him of the age of the universe? Forget about radiocarbon dating -- he has a paper from a 'theologian' that says that carbon dating is inaccurate.
I know this is a pointless affair -- but I must admit I enjoy the debate a little bit. ;-) -Quasipalm 15:25, 12 December 2006 (UTC)
- Review our article on age of the earth. Hipocrite - «Talk» 15:30, 12 December 2006 (UTC)
It really, truly is a pointless argument. For one thing, if your opponent is willing to posit the existence of an omnipotent god who can fabricate any evidence, then no argument you can possibly ever come up with, whether understandable by a layman, a child, an evolutionary biologist or a quantum physicist, will ever, ever convince him.
More important, I think, is the fact that you and he are arguing from completely different worlds. You might as well be speaking Swahili, and he Martian. Science tries as hard as it can to be objectifiably verifiable and to remove human emotions such as faith from the equation. But religion, of course, depends as heavily upon faith as science does upon rigor. So your arguments with him aren't merely pointless, they are also in a real sense meaningless. (Be thankful that your opponent isn't trying to use "scientific" arguments to "prove" creation, or to disprove evolution, as some fundamentalist Christians I know sometimes try to.) —Steve Summit (talk) 16:27, 12 December 2006 (UTC)
- Look at the external articles linked to from Young Earth creationism. yandman 16:55, 12 December 2006 (UTC)
- See also Omphalos (book) which introduced the philosophical argument that in the Garden of Eden there would have been inevitable biological references to spurious prior existence. The wavefront of light from the stars, the fossils, the giant eroded canyons, the ratio of This became Omphalos (theology). Edison 18:43, 12 December 2006 (UTC)
A mannan-digesting enzyme?
Does anybody happen to know an enzyme that at least somewhat specifically digests mannan? I've been searching through the literature and Sigma catalogue, but I've been unable to find anything satisfactory. I'm hoping that I'm missing something specific. – ClockworkSoul 16:52, 12 December 2006 (UTC)
- Prefaced with I know nothing about this topic, Mannanase seems to have some mention of digesting mannan (no wikipedia article on it yet), see . --TeaDrinker 18:47, 12 December 2006 (UTC)
Guns Fired Into The Air
When someone fires a gun up into the air (toward the sky), how hazardous is the falling bullet? I'll leave you to decide what gun and bullet-type since I know nothing of such things. --Username132 (talk) 18:30, 12 December 2006 (UTC)
- How stuff works seems to indicate it is a lethal hazard, which is the impression I have as well. --TeaDrinker
- The MythBusters covered this in their third season episode "Bullets Fired Up". The wikipedia summary is: "In the case of a bullet fired at a precisely vertical angle (something extremely difficult for a human being to duplicate), the bullet would tumble, lose its spin, and fall at a much slower speed due to terminal velocity and is therefore rendered less than lethal on impact. However, if a bullet is fired upward at a non-vertical angle (a far more probable possibility), it will maintain its spin and will reach a high enough speed to be lethal on impact. Because of this potentiality, firing a gun into the air is illegal in most states, and even in the states that it is legal, it is not recommended by the police. Also the MythBusters were able to identify two people who had been injured by falling bullets, one of them fatally injured." -- Plutor 18:35, 12 December 2006 (UTC)