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| | Hemorrhoids, in the rectum, happen when the veins are not [http://www.dict.cc/englisch-deutsch/returning+sufficient.html returning sufficient] blood back to the heart. When this takes place, the vein walls do not obtain sufficient oxygen and release a substance into the blood that causes them swell and grow to be inflamed. This swelling weakens them and their far more likely to break when they are rubbed, like during a bowel movement.<br><br>If your stools are challenging, you have a higher chance of breaking a swelling vein. For this cause getting your stools softer is one particular step in clearing your hemorrhoids. You can do this by consuming a diet regime and making use of remedies that aid relieve constipation.<br><br>Hemorrhoids, which are enlarged or swelling can exist,<br><br>On the inside just above the muscle that closes the anus and into to the rectum. I found out about [http://aomoriplaza.net/2014/08/to-day-breakthrough-breast-enhancement-treatment-increase-chest-size/ To-day breakthrough Breast Enhancement Treatment Increase Chest Size | Aomori Plaza] by searching the Internet. They are near the surface of the rectum mucus membrane<br><br>On the outside, they take place on the skin that surround the anus and protrude or hang outward.<br><br>In a way, hemorrhoids can be deemed varicose veins of the rectum. Just like varicose veins in the legs, the rectum veins turn into enlarged and come to the skin surface and bulge out.<br><br>Hemorrhoids occur when you are constipated for extended periods, sit for lengthy hours, lift heavy items, or are pregnant.<br><br>If youre constipated, youre possibly getting a difficult time having a bowel movement. And when you do, your stools are generally tiny, tough, and dry. In the event people desire to identify more on [http://www.gascookerinstallation.com/piles-a-supply-for-bleeding-stools.html Piles : A Supply For Bleeding Stools | Gas Cooker Installation], there are many online resources people might consider investigating. If you have to push and strain or sit on the toilet for 10-15 minutes, then count on to have hemorrhoids at some point. Two to three minutes is all you usually need to have to have a all-natural bowel movement.<br><br>More than 85% of the population has hemorrhoids. Hemorrhoids are a sign that fecal matter is not passing by way of your colon like it should. Easy hemorrhoids are not unsafe to your wellness, but hemorrhoids that have been building for a whilst will lead to you some discomfort, such as,<br><br>[http://browse.deviantart.com/?q=Mucus+discharge Mucus discharge]<br><br>Bleeding showing up in your stools or dripping into the toilet water<br><br>Itching on the outdoors of the rectum<br><br>Discomfort in the rectum location and in the course of a bowel movement<br><br>Pain in the rectum location, when you sit<br><br>Soft bulging location in the rectum or anus that give you a sensation that something is there<br><br>See your doctor if your hemorrhoids are painful, have excess bleeding, or stools have adjust in color from medium brown to dark brown or black.<br><br>Just be aware of any growth in the rectum, bleeding during a bowel movement, and a alter in your stools color. Visiting [http://www.876785.com/piles-a-source-for-bleeding-stools/ worth reading] perhaps provides tips you can use with your dad. Then take action to take care of these modifications..<br><br>If you adored this information and you would like to obtain additional details relating to [http://efficaciouslose24.postbit.com global health] kindly check out our web page. |
| [[Image:Sensitive-dependency.svg|thumb|300px|Point [[attractor]]s in 2D [[phase space]]]]
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| In [[chaos theory]], the '''butterfly effect''' is the ''sensitive dependency on initial conditions'' in which a small change at one place in a deterministic [[nonlinear system]] can result in large differences in a later state. The name of the effect, coined by [[Edward Lorenz]], is derived from the theoretical example of a hurricane's formation being contingent on whether or not a distant butterfly had flapped its wings several weeks earlier.
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| Although the butterfly effect may appear to be an esoteric and unlikely behavior, it is exhibited by very simple systems. For example, a ball placed at the crest of a hill may roll into any surrounding valley depending on, among other things, slight differences in its initial position.
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| The butterfly effect is a common [[trope (literature)|trope]] in fiction, especially in scenarios involving [[time travel]]. Additionally, works of fiction that involve points at which the storyline diverges during a seemingly minor event, resulting in a significantly different outcome than would have occurred without the divergence, are an example of the butterfly effect.
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| ==History==
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| [[Chaos theory]] and the sensitive dependence on initial conditions was described in the literature in a particular case of the [[three-body problem]] by [[Henri Poincaré]] in 1890.<ref name="wolframscience.com">[http://www.wolframscience.com/reference/notes/971c Some Historical Notes: History of Chaos Theory]</ref> He later proposed that such phenomena could be common, for example, in meteorology. {{cite book |last1=Steves |first1=Bonnie |last2=Maciejewski | first2=AJ |date=September 2001 |title=The Restless Universe Applications of Gravitational N-Body Dynamics to Planetary Stellar and Galactic Systems |url=http://books.google.com.au/books?id=-wa120qRW5wC |location=USA |publisher=CRC Press |isbn=0750308222 |accessdate=January 6th 2014 }}
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| In 1898,<ref name="wolframscience.com"/> [[Jacques Hadamard]] noted general divergence of trajectories in spaces of negative curvature. [[Pierre Duhem]] discussed the possible general significance of this in 1908.<ref name="wolframscience.com"/> The idea that one [[butterfly]] could eventually have a far-reaching [[ripple effect]] on subsequent historic events first appears in "[[A Sound of Thunder]]", a 1952 short story by [[Ray Bradbury]] about time travel ([[Butterfly_effect_in_popular_culture#Literature_and_print|see Literature and print here]]).
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| In 1961, Lorenz was using a numerical computer model to rerun a weather prediction, when, as a shortcut on a number in the sequence, he entered the decimal 0.506 instead of entering the full 0.506127. The result was a completely different weather scenario. <ref>{{Cite book |last=Mathis |first=Nancy |title=Storm Warning: The Story of a Killer Tornado |page=x |location= |publisher=Touchstone |year=2007 |isbn=978-0-7432-8053-2 }}</ref> In 1963 Lorenz published a theoretical study of this effect in a well-known paper called ''Deterministic Nonperiodic Flow''. <ref>{{cite journal|last=Lorenz|first=Edward N.|title=Deterministic Nonperiodic Flow|journal=Journal of the Atmospheric Sciences|date=March 1963|volume=20|issue=2|pages=130–141|url=http://journals.ametsoc.org/doi/abs/10.1175/1520-0469%281963%29020%3C0130%3ADNF%3E2.0.CO%3B2|accessdate=3 June 2010|doi=10.1175/1520-0469(1963)020<0130:DNF>2.0.CO;2|bibcode = 1963JAtS...20..130L|issn=1520-0469 }}</ref> (As noted in the paper, the calculations were performed on a [[Royal McBee]] LPD-30 computing machine.[http://www.cs.ualberta.ca/~smillie/ComputerAndMe/Part19.html]) Elsewhere he said {{Citation needed|date=April 2010}}<!-- verbatim citation does not appear in "Deterministic Nonperiodic Flow" --> that "One meteorologist remarked that if the theory were correct, one flap of a [[Gull|seagull]]'s wings could change the course of weather forever." Following suggestions from colleagues, in later speeches and papers Lorenz used the more poetic [[butterfly]]. According to Lorenz, when he failed to provide a title for a talk he was to present at the 139th meeting of the [[American Association for the Advancement of Science]] in 1972, Philip Merilees concocted ''Does the flap of a butterfly’s wings in Brazil set off a tornado in Texas?'' as a title. Although a butterfly flapping its wings has remained constant in the expression of this concept, the location of the butterfly, the consequences, and the location of the consequences have varied widely.<ref>{{cite web|url=http://blog.ap42.com/2011/08/03/the-butterfly-effect-variations-on-a-meme/|title=The Butterfly Effects: Variations on a Meme|accessdate=3 August 2011|work=[http://blog.ap42.com AP42 ...and everything]}}</ref>
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| The phrase refers to the idea that a butterfly's wings might create tiny changes in the [[Earth's atmosphere|atmosphere]] that may ultimately alter the path of a [[tornado]] or delay, accelerate or even prevent the occurrence of a tornado in another location. Note that the butterfly does not power or directly create the tornado. The flap of the wings is a part of the initial conditions; one set of conditions leads to a tornado while the other set of conditions doesn't. The flapping wing represents a small change in the initial condition of the system, which causes a chain of events leading to large-scale alterations of events (compare: [[domino effect]]). Had the butterfly not flapped its wings, the trajectory of the system might have been vastly different - it's possible that the set of conditions without the butterfly flapping its wings is the set that leads to a tornado.
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| The butterfly effect presents an obvious challenge to prediction, since initial conditions for a system such as the weather can never be known to complete accuracy. This problem motivated the development of [[ensemble forecasting]], in which a number of forecasts are made from perturbed initial conditions. <ref>{{Cite book |last=Woods|first=Austin|title=Medium-range weather prediction: The European approach; The story of the European Centre for Medium-Range Weather Forecasts |page=118 |location=New York |publisher=Springer |year=2005 |isbn=978-0387269283 }}</ref>
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| Some scientists have since argued that the weather system is not as sensitive to initial condition as previously believed.<ref>{{cite journal|last=Orrell|first=David| last2=Smith | first2 = Leonard | last3=Barkmeijer | first3 = Jan | last4 = Palmer | first4 = Tim | title=Model error in weather forecasting|journal=Nonlinear Proc. Geoph. | year=2001| volume=9 | pages=357–371 }}</ref> [[David Orrell]] argues that the major contributor to weather forecast error is model error, with sensitivity to initial conditions playing a relatively small role.<ref>{{cite journal|last=Orrell|first=David| title=Role of the metric in forecast error growth: How chaotic is the weather?|journal=Tellus | year=2002| volume=54A | pages=350–362 }}</ref><ref>{{Cite book |last=Orrell |first=David |title=Truth or Beauty: Science and the Quest for Order |page=208 |location=New Haven|publisher=Yale University Press |year=2012 |isbn=978-0300186611 }}</ref> [[Stephen Wolfram]] also notes that the Lorenz equations are highly simplified and do not contain terms that represent viscous effects; he believes that these terms would tend to damp out small perturbations.<ref>{{Cite book |last=Wolfram|first=Stephen |title=A New Kind of Science |page=998 |location= |publisher=Wolfram Media |year=2002 |isbn=978-1579550080 }}</ref>
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| ==Illustration==
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| :{|class="wikitable" width=100%
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| ! colspan=3|The butterfly effect in the [[Lorenz attractor]]
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| |colspan=2 align="center"| time 0 ≤ ''t'' ≤ 30 [[:Image:TwoLorenzOrbits.jpg|(larger)]]
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| | align="center" | ''z'' coordinate [[:Image:LorenzCoordinatesBig.png|(larger)]]
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| |colspan=2 align="center"|[[Image:TwoLorenzOrbits.jpg|300px]]
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| |align="center"|[[Image:LorenzCoordinatesSmall.jpg|300px]]
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| |colspan=3| These figures show two segments of the three-dimensional evolution of two trajectories (one in blue, the other in yellow) for the same period of time in the [[Lorenz attractor]] starting at two initial points that differ by only 10<sup>−5</sup> in the x-coordinate. Initially, the two trajectories seem coincident, as indicated by the small difference between the ''z'' coordinate of the blue and yellow trajectories, but for ''t'' > 23 the difference is as large as the value of the trajectory. The final position of the cones indicates that the two trajectories are no longer coincident at ''t'' = 30.
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| |align="center" colspan=3| A [http://to-campos.planetaclix.pt/fractal/lorenz_eng.html Java animation of the Lorenz attractor] shows the continuous evolution.
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| |} | |
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| ==Theory and mathematical definition==
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| [[Poincaré recurrence theorem|Recurrence]], the approximate return of a system towards its initial conditions, together with sensitive dependence on initial conditions, are the two main ingredients for chaotic motion. They have the practical consequence of making [[complex system]]s, such as the [[weather]], difficult to predict past a certain time range (approximately a week in the case of weather) since it is impossible to measure the starting atmospheric conditions completely accurately.
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| A [[dynamical system]] displays sensitive dependence on initial conditions if points arbitrarily close together separate over time at an exponential rate. The definition is not topological, but essentially metrical.
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| If ''M'' is the [[State space (dynamical system)|state space]] for the map <math>f^t</math>, then <math>f^t</math> displays sensitive dependence to initial conditions if for any x in ''M'' and any δ > 0, there are y in ''M'', with <math>0 < d(x, y) < \delta </math> such that
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| :<math>d(f^\tau(x), f^\tau(y)) > \mathrm{e}^{a\tau} \, d(x,y).</math>
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| The definition does not require that all points from a neighborhood separate from the base point ''x'', but it requires one positive [[Lyapunov exponent]].
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| ==Examples==
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| The butterfly effect is most familiar in terms of [[weather]]; it can easily be demonstrated in standard weather prediction models, for example.<ref>http://www.realclimate.org/index.php/archives/2005/11/chaos-and-climate/</ref>
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| The potential for sensitive dependence on initial conditions (the butterfly effect) has been studied in a number of cases in semiclassical and [[quantum mechanics|quantum physics]] including atoms in strong fields and the anisotropic [[Kepler problem]].<ref>{{Cite journal |title=Postmodern Quantum Mechanics |first=E. J. |last=Heller |first2=S. |last2=Tomsovic |journal=Physics Today |date=July 1993 }}</ref><ref>{{Cite book |first=Martin C. |last=Gutzwiller |title=Chaos in Classical and Quantum Mechanics |year=1990 |publisher=Springer-Verlag |location=New York |isbn=0-387-97173-4 }}</ref> Some authors have argued that extreme (exponential) dependence on initial conditions is not expected in pure quantum treatments;<ref name="What is... Quantum Chaos">{{Cite web |url=http://www.ams.org/notices/200801/tx080100032p.pdf |format=PDF |title=What is...Quantum Chaos |first=Ze'ev |last=Rudnick |date=January 2008 |work=Notices of the American Mathematical Society }}</ref><ref>{{cite journal |last1=Berry |first1=Michael |title=Quantum chaology, not quantum chaos |journal=Physica Scripta |volume=40 |pages=335 |year=1989 |doi=10.1088/0031-8949/40/3/013 |bibcode = 1989PhyS...40..335B |issue=3 }}</ref> however, the sensitive dependence on initial conditions demonstrated in classical motion is included in the semiclassical treatments developed by [[Martin Gutzwiller]]<ref>{{Cite journal |first=Martin C. |last=Gutzwiller |year=1971 |title=Periodic Orbits and Classical Quantization Conditions |journal=[[Journal of Mathematical Physics]] |volume=12 |issue= 3|pages=343 |doi=10.1063/1.1665596 |bibcode = 1971JMP....12..343G }}</ref> and Delos and co-workers.<ref>{{Cite journal |title=Closed-orbit theory of oscillations in atomic photoabsorption cross sections in a strong electric field. II. Derivation of formulas |first=J. |last=Gao |lastauthoramp=yes |first2=J. B. |last2=Delos |journal=[[Physical Review|Phys. Rev. A]] |volume=46 |issue=3 |pages=1455–1467 |year=1992 |doi=10.1103/PhysRevA.46.1455 |bibcode = 1992PhRvA..46.1455G }}</ref>
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| Other authors suggest that the butterfly effect can be observed in quantum systems. Karkuszewski et al. consider the time evolution of quantum systems which have slightly different Hamiltonians. They investigate the level of sensitivity of quantum systems to small changes in their given Hamiltonians.<ref>{{Cite journal |title=Quantum Chaotic Environments, the Butterfly Effect, and Decoherence |first=Zbyszek P. |last=Karkuszewski |first2=Christopher |last2=Jarzynski |first3=Wojciech H. |last3=Zurek |journal=[[Physical Review Letters]] |volume=89 |issue=17 |year=2002 |pages=170405 |doi=10.1103/PhysRevLett.89.170405 |bibcode=2002PhRvL..89q0405K|arxiv = quant-ph/0111002 }}</ref> Poulin et al. presented a quantum algorithm to measure fidelity decay, which "measures the rate at which identical initial states diverge when subjected to slightly different dynamics". They consider fidelity decay to be "the closest quantum analog to the (purely classical) butterfly effect".<ref>{{Cite journal |last=Poulin |first=David |last2=Blume-Kohout |first2=Robin |last3=Laflamme |first3=Raymond |lastauthoramp=yes |last4=Ollivier |first4=Harold |year=2004 |title=Exponential Speedup with a Single Bit of Quantum Information: Measuring the Average Fidelity Decay |journal=Physical Review Letters |volume=92 |issue=17 |pages=177906 |doi=10.1103/PhysRevLett.92.177906 |bibcode=2004PhRvL..92q7906P|arxiv = quant-ph/0310038 |pmid=15169196 }}</ref> Whereas the classical butterfly effect considers the effect of a small change in the position and/or velocity of an object in a given [[Hamiltonian system]], the quantum butterfly effect considers the effect of a small change in the Hamiltonian system with a given initial position and velocity.<ref name="iqc.ca">{{Cite web |title=A Rough Guide to Quantum Chaos |first=David |last=Poulin |url=http://www.iqc.ca/publications/tutorials/chaos.pdf |format=PDF }}</ref><ref>{{Cite book |first=A. |last=Peres |title=Quantum Theory: Concepts and Methods |publisher=Kluwer Academic |location=Dordrecht |year=1995 |isbn= }}</ref> This quantum butterfly effect has been demonstrated experimentally.<ref>{{Cite journal |title=Quantum amplifier: Measurement with entangled spins |first=Jae-Seung |last=Lee |lastauthoramp=yes |first2=A. K. |last2=Khitrin |journal=[[Journal of Chemical Physics]] |volume=121 |issue=9 |year=2004 |pages=3949 |doi=10.1063/1.1788661 |bibcode = 2004JChPh.121.3949L }}</ref> Quantum and semiclassical treatments of system sensitivity to initial conditions are known as [[quantum chaos]].<ref name="What is... Quantum Chaos"/><ref name="iqc.ca"/>
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| ==In popular culture==
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| {{Main|Butterfly effect in popular culture}}
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| ==See also==
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| {{div col|4}}
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| * [[Actuality and potentiality]]
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| * [[Avalanche effect]]
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| * [[Behavioral cusp]]
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| * [[Cascading failure]]
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| * [[Causality]]
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| * [[Chain reaction]]
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| * [[Clapotis]]
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| * [[Determinism]]
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| * [[Domino effect]]
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| * [[Dynamical systems]]
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| * [[Fractal]]
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| * [[Innovation butterfly]]
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| * [[Kessler syndrome]]
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| * [[Law of unintended consequences]]
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| * [[Point of divergence]]
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| * [[Positive feedback]]
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| * [[Ripple effect]]
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| * [[Snowball effect]]
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| * [[Traffic congestion]]
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| * [[Tropical cyclogenesis]]
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| {{div col end}}
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| <!-- Please don't add the movie DASAVATHARAM here.
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| There is a discussion on the talk page of the Chaos theory article this movie... if this movie should be mentioned or not in the realm of chaos theory. The current opinion is, that this movie should not (yet) be added to this list. Please add your opinion add the talk page. This is the way Wikipedia works, Thank you. -->
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| ==References==
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| {{Reflist|30em}}
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| ==Further reading==
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| *{{cite book |first=Robert L. |last=Devaney |title=Introduction to Chaotic Dynamical Systems |location= |publisher=Westview Press |year=2003 |isbn=0-8133-4085-3 }}
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| *{{cite journal |journal=[[American Journal of Physics]] |year=2004 |title=Sea gulls, butterflies, and grasshoppers: A brief history of the butterfly effect in nonlinear dynamics |pages=425–427 |first=Robert C. |last=Hilborn |volume=72 |issue=4 |doi=10.1119/1.1636492 |bibcode = 2004AmJPh..72..425H}}
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| ==External links==
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| {{wiktionary|butterfly effect}}
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| * [http://www.boston.com/bostonglobe/ideas/articles/2008/06/08/the_meaning_of_the_butterfly/?page=full The meaning of the butterfly: Why pop culture loves the 'butterfly effect,' and gets it totally wrong], Peter Dizikes, ''[[Boston Globe]]'', June 8, 2008
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| * [http://www.news.cornell.edu/releases/Feb04/AAAS.Kleinberg.ws.html From butterfly wings to single e-mail] ([[Cornell University]])
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| * [http://necsi.edu/guide/concepts/butterflyeffect.html New England Complex Systems Institute - Concepts: Butterfly Effect]
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| * [http://hypertextbook.com/chaos/ The Chaos Hypertextbook]. An introductory primer on chaos and fractals
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| * [http://chaosbook.org/ ChaosBook.org]. Advanced graduate textbook on chaos (no fractals)
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| * {{MathWorld | urlname=ButterflyEffect | title=Butterfly Effect}}
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| {{Chaos theory}}
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| {{Time travel}}
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| {{unintended consequences}}
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| {{DEFAULTSORT:Butterfly Effect}}
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| [[Category:Causality]]
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| [[Category:Chaos theory]]
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| [[Category:Determinism]]
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| [[Category:Metaphors referring to animals]]
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| [[Category:Physical phenomena]]
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| [[Category:Stability theory]]
| |
Hemorrhoids, in the rectum, happen when the veins are not returning sufficient blood back to the heart. When this takes place, the vein walls do not obtain sufficient oxygen and release a substance into the blood that causes them swell and grow to be inflamed. This swelling weakens them and their far more likely to break when they are rubbed, like during a bowel movement.
If your stools are challenging, you have a higher chance of breaking a swelling vein. For this cause getting your stools softer is one particular step in clearing your hemorrhoids. You can do this by consuming a diet regime and making use of remedies that aid relieve constipation.
Hemorrhoids, which are enlarged or swelling can exist,
On the inside just above the muscle that closes the anus and into to the rectum. I found out about To-day breakthrough Breast Enhancement Treatment Increase Chest Size | Aomori Plaza by searching the Internet. They are near the surface of the rectum mucus membrane
On the outside, they take place on the skin that surround the anus and protrude or hang outward.
In a way, hemorrhoids can be deemed varicose veins of the rectum. Just like varicose veins in the legs, the rectum veins turn into enlarged and come to the skin surface and bulge out.
Hemorrhoids occur when you are constipated for extended periods, sit for lengthy hours, lift heavy items, or are pregnant.
If youre constipated, youre possibly getting a difficult time having a bowel movement. And when you do, your stools are generally tiny, tough, and dry. In the event people desire to identify more on Piles : A Supply For Bleeding Stools | Gas Cooker Installation, there are many online resources people might consider investigating. If you have to push and strain or sit on the toilet for 10-15 minutes, then count on to have hemorrhoids at some point. Two to three minutes is all you usually need to have to have a all-natural bowel movement.
More than 85% of the population has hemorrhoids. Hemorrhoids are a sign that fecal matter is not passing by way of your colon like it should. Easy hemorrhoids are not unsafe to your wellness, but hemorrhoids that have been building for a whilst will lead to you some discomfort, such as,
Mucus discharge
Bleeding showing up in your stools or dripping into the toilet water
Itching on the outdoors of the rectum
Discomfort in the rectum location and in the course of a bowel movement
Pain in the rectum location, when you sit
Soft bulging location in the rectum or anus that give you a sensation that something is there
See your doctor if your hemorrhoids are painful, have excess bleeding, or stools have adjust in color from medium brown to dark brown or black.
Just be aware of any growth in the rectum, bleeding during a bowel movement, and a alter in your stools color. Visiting worth reading perhaps provides tips you can use with your dad. Then take action to take care of these modifications..
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