SOFTowaha

Welcome!

Hello, SOFTowaha, and welcome to Wikipedia! Thank you for your contributions. I hope you like the place and decide to stay. Unfortunately, one or more of the pages you created, like Jeem Towaha, may not conform to some of Wikipedia's guidelines for page creation, and may soon be deleted.

You may also wish to consider using a Wizard to help you create articles. See the Article Wizard. Thank you.

There's a page about creating articles you may want to read called Your first article. If you are stuck, and looking for help, please come to the New contributors' help page, where experienced Wikipedians can answer any queries you have! Or, you can just type {{helpme}} on this page, and someone will show up shortly to answer your questions. Here are a few other good links for newcomers:

• Your first article
• Biographies of living persons
• How to write a great article
• The five pillars of Wikipedia
• Help pages
• Tutorial

I hope you enjoy editing here and being a Wikipedian! Please sign your name on talk pages using four tildes (~~~~); this will automatically produce your name and the date. If you have any questions, check out Wikipedia:Where to ask a question or ask me on my talk page. Again, welcome! SS✞^(Kay) 07:22, 8 April 2010 (UTC)Reply

Speedy deletion nomination of Jeem Towaha

Latest comment: 14 years ago2 comments2 people in discussion

 

A tag has been placed on Jeem Towaha requesting that it be speedily deleted from Wikipedia. This has been done under section A7 of the criteria for speedy deletion, because the article appears to be about a person or group of people, but it does not indicate how or why the subject is important or significant: that is, why an article about that subject should be included in an encyclopedia. Under the criteria for speedy deletion, such articles may be deleted at any time. Please see the guidelines for what is generally accepted as notable, as well as our subject-specific notability guideline for biographies. You may also wish to consider using a Wizard to help you create articles - see the Article Wizard.

If you think that this notice was placed here in error, you may contest the deletion by adding {{hangon}} to the top of the page that has been nominated for deletion (just below the existing speedy deletion or "db" tag), coupled with adding a note on the talk page explaining your position, but be aware that once tagged for speedy deletion, if the page meets the criterion, it may be deleted without delay. Please do not remove the speedy deletion tag yourself, but don't hesitate to add information to the page that would render it more in conformance with Wikipedia's policies and guidelines. Lastly, please note that if the page does get deleted, you can contact one of these admins to request that they userfy the page or have a copy emailed to you. SS✞^(Kay) 07:22, 8 April 2010 (UTC)Reply

  Hello! Jeem Towaha is not the appropriate place to post information about yourself, because it is in the part of Wikipedia where encyclopaedic articles are written. A "userpage" at SOFTowaha, however, is available for personal information about yourself. When adding personal information please remember that Wikipedia is not a social network such as MySpace or Facebook. Your userpage is for anything that is compatible with the Wikipedia project. It is a mistake to think of it as a homepage: Wikipedia is not a blog, webspace provider, or social networking site. Please see Wikipedia:Introduction and Wikipedia:User page for more information. JohnCD (talk) 14:34, 8 April 2010 (UTC)Reply

Your submission at Articles for creation

Latest comment: 12 years ago1 comment1 person in discussion

 

Thank you for your recent submission to Articles for Creation. Your article submission has been reviewed. However, the reviewer felt that a few things need to be fixed before it is accepted. Please view your submission to see the comments left by the reviewer. You are welcome to edit the submission to address the issues raised, and resubmit once you feel they have been resolved. (You can do this by adding the text {{subst:submit}} to the top of the article.)

• If you would like to continue working on the submission, you can find it at Wikipedia talk:Articles for creation/Vernier Constant.
• To edit the submission, you can use the edit button at the top of the article, near the search bar
• If you need any assistance, you can ask for help at the Help desk or the reviewer's talk page. Alternatively you can ask a reviewer questions via live help

Thank you for your contributions to Wikipedia! jsfouche ☽☾Talk 19:32, 8 January 2012 (UTC)Reply

The first ten thousand digits of pi

3. 1415926535 8979323846 2643383279 5028841971 6939937510 5820974944 5923078164 0628620899 8628034825 3421170679 8214808651 3282306647 0938446095 5058223172 5359408128 4811174502 8410270193 8521105559 6446229489 5493038196 4428810975 6659334461 2847564823 3786783165 2712019091 4564856692 3460348610 4543266482 1339360726 0249141273 7245870066 0631558817 4881520920 9628292540 9171536436 7892590360 0113305305 4882046652 1384146951 9415116094 3305727036 5759591953 0921861173 8193261179 3105118548 0744623799 6274956735 1885752724 8912279381 8301194912 9833673362 4406566430 8602139494 6395224737 1907021798 6094370277 0539217176 2931767523 8467481846 7669405132 0005681271 4526356082 7785771342 7577896091 7363717872 1468440901 2249534301 4654958537 1050792279 6892589235 4201995611 2129021960 8640344181 5981362977 4771309960 5187072113 4999999837 2978049951 0597317328 1609631859 5024459455 3469083026 4252230825 3344685035 2619311881 7101000313 7838752886 5875332083 8142061717 7669147303 5982534904 2875546873 1159562863 8823537875 9375195778 1857780532 1712268066 1300192787 6611195909 2164201989 3809525720 1065485863 2788659361 5338182796 8230301952 0353018529 6899577362 2599413891 2497217752 8347913151 5574857242 4541506959 5082953311 6861727855 8890750983 8175463746 4939319255 0604009277 0167113900 9848824012 8583616035 6370766010 4710181942 9555961989 4676783744 9448255379 7747268471 0404753464 6208046684 2590694912 9331367702 8989152104 7521620569 6602405803 8150193511 2533824300 3558764024 7496473263 9141992726 0426992279 6782354781 6360093417 2164121992 4586315030 2861829745 5570674983 8505494588 5869269956 9092721079 7509302955 3211653449 8720275596 0236480665 4991198818 3479775356 6369807426 5425278625 5181841757 4672890977 7727938000 8164706001 6145249192 1732172147 7235014144 1973568548 1613611573 5255213347 5741849468 4385233239 0739414333 4547762416 8625189835 6948556209 9219222184 2725502542 5688767179 0494601653 4668049886 2723279178 6085784383 8279679766 8145410095 3883786360 9506800642 2512520511 7392984896 0841284886 2694560424 1965285022 2106611863 0674427862 2039194945 0471237137 8696095636 4371917287 4677646575 7396241389 0865832645 9958133904 7802759009 9465764078 9512694683 9835259570 9825822620 5224894077 2671947826 8482601476 9909026401 3639443745 5305068203 4962524517 4939965143 1429809190 6592509372 2169646151 5709858387 4105978859 5977297549 8930161753 9284681382 6868386894 2774155991 8559252459 5395943104 9972524680 8459872736 4469584865 3836736222 6260991246 0805124388 4390451244 1365497627 8079771569 1435997700 1296160894 4169486855 5848406353 4220722258 2848864815 8456028506 0168427394 5226746767 8895252138 5225499546 6672782398 6456596116 3548862305 7745649803 5593634568 1743241125 1507606947 9451096596 0940252288 7971089314 5669136867 2287489405 6010150330 8617928680 9208747609 1782493858 9009714909 6759852613 6554978189 3129784821 6829989487 2265880485 7564014270 4775551323 7964145152 3746234364 5428584447 9526586782 1051141354 7357395231 1342716610 2135969536 2314429524 8493718711 0145765403 5902799344 0374200731 0578539062 1983874478 0847848968 3321445713 8687519435 0643021845 3191048481 0053706146 8067491927 8191197939 9520614196 6342875444 0643745123 7181921799 9839101591 9561814675 1426912397 4894090718 6494231961 5679452080 9514655022 5231603881 9301420937 6213785595 6638937787 0830390697 9207734672 2182562599 6615014215 0306803844 7734549202 6054146659 2520149744 2850732518 6660021324 3408819071 0486331734 6496514539 0579626856 1005508106 6587969981 6357473638 4052571459 1028970641 4011097120 6280439039 7595156771 5770042033 7869936007 2305587631 7635942187 3125147120 5329281918 2618612586 7321579198 4148488291 6447060957 5270695722 0917567116 7229109816 9091528017 3506712748 5832228718 3520935396 5725121083 5791513698 8209144421 0067510334 6711031412 6711136990 8658516398 3150197016 5151168517 1437657618 3515565088 4909989859 9823873455 2833163550 7647918535 8932261854 8963213293 3089857064 2046752590 7091548141 6549859461 6371802709 8199430992 4488957571 2828905923 2332609729 9712084433 5732654893 8239119325 9746366730 5836041428 1388303203 8249037589 8524374417 0291327656 1809377344 4030707469 2112019130 2033038019 7621101100 4492932151 6084244485 9637669838 9522868478 3123552658 2131449576 8572624334 4189303968 6426243410 7732269780 2807318915 4411010446 8232527162 0105265227 2111660396 6655730925 4711055785 3763466820 6531098965 2691862056 4769312570 5863566201 8558100729 3606598764 8611791045 3348850346 1136576867 5324944166 8039626579 7877185560 8455296541 2665408530 6143444318 5867697514 5661406800 7002378776 5913440171 2749470420 5622305389 9456131407 1127000407 8547332699 3908145466 4645880797 2708266830 6343285878 5698305235 8089330657 5740679545 7163775254 2021149557 6158140025 0126228594 1302164715 5097925923 0990796547 3761255176 5675135751 7829666454 7791745011 2996148903 0463994713 2962107340 4375189573 5961458901 9389713111 7904297828 5647503203 1986915140 2870808599 0480109412 1472213179 4764777262 2414254854 5403321571 8530614228 8137585043 0633217518 2979866223 7172159160 7716692547 4873898665 4949450114 6540628433 6639379003 9769265672 1463853067 3609657120 9180763832 7166416274 8888007869 2560290228 4721040317 2118608204 1900042296 6171196377 9213375751 1495950156 6049631862 9472654736 4252308177 0367515906 7350235072 8354056704 0386743513 6222247715 8915049530 9844489333 0963408780 7693259939 7805419341 4473774418 4263129860 8099888687 4132604721 5695162396 5864573021 6315981931 9516735381 2974167729 4786724229 2465436680 0980676928 2382806899 6400482435 4037014163 1496589794 0924323789 6907069779 4223625082 2168895738 3798623001 5937764716 5122893578 6015881617 5578297352 3344604281 5126272037 3431465319 7777416031 9906655418 7639792933 4419521541 3418994854 4473456738 3162499341 9131814809 2777710386 3877343177 2075456545 3220777092 1201905166 0962804909 2636019759 8828161332 3166636528 6193266863 3606273567 6303544776 2803504507 7723554710 5859548702 7908143562 4014517180 6246436267 9456127531 8134078330 3362542327 8394497538 2437205835 3114771199 2606381334 6776879695 9703098339 1307710987 0408591337 4641442822 7726346594 7047458784 7787201927 7152807317 6790770715 7213444730 6057007334 9243693113 8350493163 1284042512 1925651798 0694113528 0131470130 4781643788 5185290928 5452011658 3934196562 1349143415 9562586586 5570552690 4965209858 0338507224 2648293972 8584783163 0577775606 8887644624 8246857926 0395352773 4803048029 0058760758 2510474709 1643961362 6760449256 2742042083 2085661190 6254543372 1315359584 5068772460 2901618766 7952406163 4252257719 5429162991 9306455377 9914037340 4328752628 8896399587 9475729174 6426357455 2540790914 5135711136 9410911939 3251910760 2082520261 8798531887 7058429725 9167781314 9699009019 2116971737 2784768472 6860849003 3770242429 1651300500 5168323364 3503895170 2989392233 4517220138 1280696501 1784408745 1960121228 5993716231 3017114448 4640903890 6449544400 6198690754 8516026327 5052983491 8740786680 8818338510 2283345085 0486082503 9302133219 7155184306 3545500766 8282949304 1377655279 3975175461 3953984683 3936383047 4611996653 8581538420 5685338621 8672523340 2830871123 2827892125 0771262946 3229563989 8989358211 6745627010 2183564622 0134967151 8819097303 8119800497 3407239610 3685406643 1939509790 1906996395 5245300545 0580685501 9567302292 1913933918 5680344903 9820595510 0226353536 1920419947 4553859381 0234395544 9597783779 0237421617 2711172364 3435439478 2218185286 2408514006 6604433258 8856986705 4315470696 5747458550 3323233421 0730154594 0516553790 6866273337 9958511562 5784322988 2737231989 8757141595 7811196358 3300594087 3068121602 8764962867 4460477464 9159950549 7374256269 0104903778 1986835938 1465741268 0492564879 8556145372 3478673303 9046883834 3634655379 4986419270 5638729317 4872332083 7601123029 9113679386 2708943879 9362016295 1541337142 4892830722 0126901475 4668476535 7616477379 4675200490 7571555278 1965362132 3926406160 1363581559 0742202020 3187277605 2772190055 6148425551 8792530343 5139844253 2234157623 3610642506 3904975008 6562710953 5919465897 5141310348 2276930624 7435363256 9160781547 8181152843 6679570611 0861533150 4452127473 9245449454 2368288606 1340841486 3776700961 2071512491 4043027253 8607648236 3414334623 5189757664 5216413767 9690314950 1910857598 4423919862 9164219399 4907236234 6468441173 9403265918 4044378051 3338945257 4239950829 6591228508 5558215725 0310712570 1266830240 2929525220 1187267675 6220415420 5161841634 8475651699 9811614101 0029960783 8690929160 3028840026 9104140792 8862150784 2451670908 7000699282 1206604183 7180653556 7252532567 5328612910 4248776182 5829765157 9598470356 2226293486 0034158722 9805349896 5022629174 8788202734 2092222453 3985626476 6914905562 8425039127 5771028402 7998066365 8254889264 8802545661 0172967026 6407655904 2909945681 5065265305 3718294127 0336931378 5178609040 7086671149 6558343434 7693385781 7113864558 7367812301 4587687126 6034891390 9562009939 3610310291 6161528813 8437909904 2317473363 9480457593 1493140529 7634757481 1935670911 0137751721 0080315590 2485309066 9203767192 2033229094 3346768514 2214477379 3937517034 4366199104 0337511173 5471918550 4644902636 5512816228 8244625759 1633303910 7225383742 1821408835 0865739177 1509682887 4782656995 9957449066 1758344137 5223970968 3408005355 9849175417 3818839994 4697486762 6551658276 5848358845 3142775687 9002909517 0283529716 3445621296 4043523117 6006651012 4120065975 5851276178 5838292041 9748442360 8007193045 7618932349 2292796501 9875187212 7267507981 2554709589 0455635792 1221033346 6974992356 3025494780 2490114195 2123828153 0911407907 3860251522 7429958180 7247162591 6685451333 1239480494 7079119153 2673430282 4418604142 6363954800 0448002670 4962482017 9289647669 7583183271 3142517029 6923488962 7668440323 2609275249 6035799646 9256504936 8183609003 2380929345 9588970695 3653494060 3402166544 3755890045 6328822505 4525564056 4482465151 8754711962 1844396582 5337543885 6909411303 1509526179 3780029741 2076651479 3942590298 9695946995 5657612186 5619673378 6236256125 2163208628 6922210327 4889218654 3648022967 8070576561 5144632046 9279068212 0738837781 4233562823 6089632080 6822246801 2248261177 1858963814 0918390367 3672220888 3215137556 0037279839 4004152970 0287830766 7094447456 0134556417 2543709069 7939612257 1429894671 5435784687 8861444581 2314593571 9849225284 7160504922 1242470141 2147805734 5510500801 9086996033 0276347870 8108175450 1193071412 2339086639 3833952942 5786905076 4310063835 1983438934 1596131854 3475464955 6978103829 3097164651 4384070070 7360411237 3599843452 2516105070 2705623526 6012764848 3084076118 3013052793 2054274628 6540360367 4532865105 7065874882 2569815793 6789766974 2205750596 8344086973 5020141020 6723585020 0724522563 2651341055 9240190274 2162484391 4035998953 5394590944 0704691209 1409387001 2645600162 3742880210 9276457931 0657922955 2498872758 4610126483 6999892256 9596881592 0560010165 5256375678

In honor of Pi Day — 3.14.2011

I. A brief history of Pi

The mathematical constant we now know as Pi = 3.14159… has fascinated mathematicians for millennia. Archimedes of Syracuse (~250 BCE) rigorously showed that the area of a circle is Pi times the square of the radius. He then presented an approximation scheme, based on inscribed and circumscribed polygons, which enabled one to compute Pi to any desired accuracy. He himself found, with laborious and ingenious computation, that 3 10/71 < Pi < 3 1/7, so that 3.1408 < Pi < 3.1428.

in ancient times was indeed very difficult, until the discovery, in fifth century India, of our modern positional decimal arithmetic system with zero. It took nearly 1000 years for this system to be widely adopted in Europe, but when it did, mathematicians, armed with advances such as calculus, discovered countless new formulas and other facts involving Pi, and computed numerical values of Pi with great aplomb. Isaac Newton computed Pi to at least 15 digits, in the plague year 1666, although he sheepishly acknowledged “I am ashamed to tell you how many figures I carried these computations, having no other business at the time.”

Leonhard Euler (1707-1783), arguably the most prolific mathematician in history, discovered several new formulas for Pi, one of which later led German mathematician Bernhard Riemann (1826-1866) to present what is now known as the Riemann zeta function hypothesis, an unproven conjecture with rich connections to many fields of mathematics. The Clay Mathematics Institute in the U.S. has offered an award of $1,000,000 for a proof.

Carl Friedrich Gauss (1777-1855) discovered many interesting connections between Pi and applied mathematics and physics. Among these many discoveries was the essential idea of a clever computational technique, now known as the “fast Fourier transform,” which intimately involves Pi. This scheme is very heavily utilized in audio, video, microwave and data transmission applications. Cell phones typically include at least one special-purpose chip to perform this operation. Gauss also discovered some interesting facts regarding the “arithmetic-geometric mean”, which (see below) later led to a new algorithm for calculating Pi.

Some progress, but not a great deal, was made in computing Pi during this time. At the end of the Reformation in 1648, Pi had been calculated only to 35 digits; even by the end of World War II in 1945 it was known to only 527 digits. In 1948 ENIAC, the first digital computer, computed 2037 digits, and the race was on.

II. Pi in the computer age

In 1965, computer scientists rediscovered Gauss’ fast Fourier transform technique, and noted that among things it could be used to greatly accelerate many-digit multiplication operations. Also in 1965, Gordon E. Moore, one of the founders of Intel, noted that because of advances in silicon semiconductor technology, the number of transistors that could be placed on a single chip had roughly doubled each year since 1960, and, from what he could see, this trend was likely to continue for several more years. Much to the astonishment of everyone in the field, “Moore’s Law,” as this observation is now known, has continued unabated for more than 45 years, and no end is yet in sight. As a result, a present-day laptop computer has more computing power and memory storage than the world’s most powerful supercomputer of just 20 years ago, and present-day high-end supercomputers (which typically are highly parallel arrays of commodity components) are many thousands of times more powerful and capacious than today’s laptops.

A few years later, mathematicians Richard Brent (at the Australian National University) and Eugene Salamin independently discovered a way to compute Pi, based on some results by Gauss on the arithmetic-geometric mean and lovely classical ideas about elliptic integrals. This yielded a much faster scheme than the traditional calculus-based formulas for Pi — with each step, this new algorithm doubles the number of correct digits (provided that one is using computer arithmetic that is sufficiently accurate).

Armed with these new formulas, numerical techniques and rapidly growing computing power, scientists computed Pi to over one million digits in 1973, to over one billion digits in 1989, and then to over one trillion digits in 2009. The most recent computation (August 2010) was done by Alexander Yee and Shigeru Kondo, who computed five trillion digits of Pi. Remarkably, this was not done on a highly parallel supercomputer, but instead was performed on a conventional two-core Intel Xeon computer equipped with 96 Gbyte of main memory. They employed a remarkable sum formula for Pi due to David and Gregory Chudnovsky, and checked their results using variants of a new formula for Pi discovered in 1996 by Peter Borwein (Jonathan Borwein’s brother), Simon Plouffe and David Bailey. This new formula for Pi has the odd property that it permits one to calculate binary (base-2 or base-16) digits of Pi beginning at an arbitrary starting position, without needing to calculate any of the digits that came before. This scheme was itself employed in 2010 to calculate binary digits beginning at position two quadrillion (by the way, the two quadrillionth binary digit of Pi is a 0).

For Pi day 2011, the authors along with Andrew Mattingly and Glenn Wightwick of IBM Australia computed digits of various constants in various bases on an IBM blue Gene/P machine. The results include base-64 digits of ?? beginning at position 10 trillion, which in base-eight are: 60114505303236475724500005743262754530363052416350634. This suite of computations in total took roughly 1200 years of serial computing time (roughly 110 “rack days”).

It is amusing to note that as recently as 1961, Daniel Shanks, who himself calculated Pi to over 100,000 digits, declared that computing one billion digits would be “forever impossible.” This was achieved in 1989 by Yasumasa Kanada of Japan. And in 1989, noted British physicist Roger Penrose, in the first edition of his best-selling book The Emperor’s New Mind, declared that we likely will never know if a string of ten consecutive sevens occurs in the decimal expansion of Pi. This string was found just eight years later (1997), also by Kanada, beginning at position 22,869,046,249.

III. Why calculate digits of Pi?

Certainly there is no need for computing Pi to millions or billions of digits in practical scientific or engineering work. A value of Pi to 40 digits would be more than enough to compute the circumference of the Milky Way galaxy to an error less than the size of a proton. There are certain scientific calculations that require intermediate calculations to be performed to significantly higher precision than required for the final results, but it is doubtful than anyone will ever need more than a few hundred digits of Pi for such purposes. Values of Pi to several thousand digits are sometimes employed in “experimental” mathematics, but very few such computations require Pi to beyond 25,000 digits, and we are not aware of any requiring Pi to more than 10 million digits.

One practical application for computing digits of Pi is that these calculations are excellent tests of the integrity of computer hardware and software. If two separate computations of digits of Pi, say using different algorithms, are in agreement except perhaps for a few trailing digits at the end, then almost certainly both computers performed trillions of operations flawlessly. For example, in 1986, a Pi-calculating program that David Bailey wrote at NASA, using an algorithm due to Jonathan and Peter Borwein, detected some hardware problems in one of the original Cray-2 supercomputers that had escaped the manufacturer’s tests.

Along this same line, some improved techniques for computing the fast Fourier transform on modern computer systems had their roots in efforts to accelerate computations of Pi. These improved techniques are now very widely employed in scientific and engineering applications.

From a mathematical point of view, one historical motivation for computing Pi was to see if the digits of Pi repeat, thus disclosing that Pi is a simple ratio of two integers. But this question was laid to rest in the 1760s, when Lambert and later Legendre used the theory of continued fractions to prove that Pi cannot be written as the ratio of two integers. The more general question of whether Pi is the solution to an algebraic equation (to be specific, the root of a polynomial with integer coefficients) was laid to rest in 1882, when Lindemann proved that Pi is not of this class.

There are many interesting mathematical questions that remain. In fact, we can prove shockingly little about either the digits of Pi or about its continued fraction. The most notable open question is probably this: Are the digits of Pi truly “random” in a statistical sense? This is more formally stated as the question of whether Pi is a “normal” number. A normal number is one whose digits in some number base (say base 10) have the property that the frequency of appearance of any finite-length string (say “4567”) tends to the expected frequency (1 in 10,000 in this case) as more and more digits are tabulated. It is widely believed that Pi has this property, not just for decimal digits but for all number bases. However, no one has been able to prove this assertion, and so mathematicians have analyzed large numbers of digits looking for any indication that this property might not hold, or for clues on how to rigorously analyze this question. A solid proof of this conjecture would yield, for instance, a provable source of pseudo-random numbers for computer-based statistical investigations. Until such a proof is in hand, it is always possible that a much longer calculation will indicate that Pi is not normal. Figure 4 shows how digit patterns in the fractions (22/7 and 223/71) jump out, while no such pattern is discernable in 100 digits of Pi (center).

But there is a more fundamental motivation for computing Pi, which should be familiar to anyone who has scaled a lofty mountain or competed in a major sporting event: “because it is there”– it is easily the most famous mathematical constants, and its properties have fascinated mathematicians and other scientists for millennia. Thus, as long as there are humans (and computers) we will doubtless witness ever-more impressive computations of Pi.

Happy birthday, Pi!

This material and much more can be followed up at The Life of Pi lecture for Pi Day 2011: JMB PiDay talk, a book chapter on Pi: JMB Pi chapter, an article on Pi in “The Conversation”: Conversation, and at David Bailey’s Pi Resources: DHB Pi site. Readers may also be amused by the following music set to the digits of Pi: Musical Pi.

Wikipedia talk:Articles for creation/Vernier Constant concern

Latest comment: 10 years ago1 comment1 person in discussion

Hi there, I'm HasteurBot. I just wanted to let you know that Wikipedia talk:Articles for creation/Vernier Constant, a page you created has not been edited in at least 180 days. The Articles for Creation space is not an indefinite storage location for content that is not appropriate for articlespace. If your submission is not edited soon, it could be nominated for deletion. If you would like to attempt to save it, you will need to improve it. You may request Userfication of the content if it meets requirements. If the deletion has already occured, instructions on how you may be able to retrieve it are available at WP:REFUND/G13. Thank you for your attention. HasteurBot (talk) 10:36, 16 August 2013 (UTC)Reply

Your article submission Vernier Constant

Latest comment: 10 years ago1 comment1 person in discussion

 

Hello Syed Omar Faruk Towaha (Jeem). It has been over six months since you last edited your article submission, entitled Vernier Constant.

The page will shortly be deleted. If you plan on editing the page to address the issues raised when it was declined and resubmit it, simply edit the submission and remove the {{db-afc}} or {{db-g13}} code. Please note that Articles for Creation is not for indefinite hosting of material deemed unsuitable for the encyclopedia mainspace.

If your submission has already been deleted by the time you get there, and you want to retrieve it, copy this code: {{subst:Refund/G13|Wikipedia talk:Articles for creation/Vernier Constant}}, paste it in the edit box at this link, click "Save", and an administrator will in most cases undelete the submission.

Thanks for your submission to Wikipedia, and happy editing. Rankersbo (talk) 12:49, 23 October 2013 (UTC)Reply

March 2014

Latest comment: 10 years ago1 comment1 person in discussion

  Please refrain from making unconstructive edits to Wikipedia, as you did at Soft error. Your edits appear to constitute vandalism and have been reverted or removed. If you would like to experiment, please use the sandbox. Administrators have the ability to block users from editing if they repeatedly engage in vandalism. Thank you. SpinningSpark 15:16, 31 March 2014 (UTC)Reply

Welcome to Wikipedia Asian Month!

Latest comment: 7 years ago1 comment1 person in discussion

Hi there! Thanks for joining Wikipedia Asian Month. Here is some information about participating in the event:

1. Please submit your articles via this tool. Click 'log in' at the top-right and OAuth will take care the rest. You can also change the interface language at the top-right.
2. Once you submit an article, the tool will add a template to the article and mark it as needing review by an organizer. You can check your progress using the tool, which includes how many accepted articles you have.
3. Participants who achieve 4 accepted articles will receive a Wikipedia Asian Month postcard. You will receive another special postcard if you achieve 15 accepted articles. The Wikipedian with the highest number of accepted articles on the English Wikipedia will be honored as a "Wikipedia Asian Ambassador", and will receive a signed certificate and additional postcard.
4. If you have any problems accessing or using the tool, you can submit your articles at this page next to your username.
5. Wikipedia Asian Month is also held in other language Wikipedia and count independently. Check for language editions.
6. If you have any question, you can take a look at our Q&A or post on the WAM talk page.

Best Wishes,--AddisWang (talk) 15:23, 1 November 2016 (UTC)Reply

Wikipedia Asian Month 2017: Invitation to Participate

 

Hello! Last year, you signed up to participate in Wikipedia Asian Month (WAM) 2016 on the English Wikipedia. The event was an international success, with hundreds of editors creating thousands of articles on Asian topics across dozens of different language versions of Wikipedia.

I'd like to invite you to join us for Wikipedia Asian Month 2017, which once again lasts through the month of November. The goal is for users to create new articles on Asian-related content, each at least 3,000 bytes and 300 words in length. Editors who create at least four articles will receive a Wikipedia Asian Month postcard!

Also be sure to check out the Wikipedia Asian Art Month affiliate event - creating articles on Asian art topics can get you a Metropolitan Museum of Art postcard!

If you're interested, please sign up here for the English Wikipedia. If you are interested in also working on other language editions of Wikipedia, please visit the meta page to see other participating projects. If you have any questions, please visit our talk page.

Thank you!

- User:SuperHamster and User:Titodutta on behalf of The English Wikipedia WAM Team

This will be the last message you receive from the English Wikipedia WAM team for being a 2016 participant. If you sign up for WAM 2017, you will continue receiving periodic updates on the 2017 event.