Pencil

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This article is about the handwriting instrument. For other uses, see Pencil (disambiguation).
Two HB pencils

A pencil is a writing or drawing instrument consisting of a smooth, thin stick of pigment (usually graphite, but can also be coloured pigment or charcoal) and clay, usually encased in a thin wood cylinder, though paper and plastic sheaths are also used. Pencils are distinct from pens, which use a liquid marking material.

Contents

[edit] History

Old Soviet colour pencils with box (circa 1959)

The archetypal pencil may have been the stylus, which was a thin metal stick, often made from lead and used for scratching in papyrus, a form of early paper. They were used extensively by the ancient Egyptians and Romans. The word pencil comes from the Latin word pencillus which means "little tail."

[edit] Discovery of graphite deposit

Some time before 1565 (some sources say as early as 1500), an enormous deposit of graphite was discovered on the approach to Grey Knotts from the hamlet of Seathwaite near Borrowdale parish, Cumbria, England.[1][2][3] The locals found that it was very useful for marking sheep. This particular deposit of graphite was extremely pure and solid, and it could easily be sawn into sticks. This remains the only large scale deposit of graphite ever found in this solid form.[4] Chemistry was in its infancy and the substance was thought to be a form of lead. Consequently, it was called plumbago (Latin for "lead ore").[5][6] The black core of pencils is still referred to as “lead,” even though it never contained the element lead.

The value of graphite was soon realized to be enormous, mainly because it could be used to line the moulds for cannon balls, and the mines were taken over by the Crown and guarded. When sufficient stocks of graphite had been accumulated the mines were flooded to prevent theft until more was required. Graphite had to be smuggled out for use in pencils. Because graphite is soft, it requires some form of case. Graphite sticks were at first wrapped in string or in sheepskin for stability. The news of the usefulness of these early pencils spread far and wide, attracting the attention of artists all over the "known world".

Although deposits of graphite had been found in other parts of the world, they were not of the same purity and quality as the Borrowdale find, and had to be crushed to remove the impurities, leaving only graphite powder.[citation needed] England continued to enjoy a monopoly on the production of pencils until a method of reconstituting the graphite powder was found. The distinctively square English pencils continued to be made with sticks cut from natural graphite into the 1860s. Today, the town of Keswick, near the original findings of block graphite, has a pencil museum.[7] The first attempt to manufacture graphite sticks from powdered graphite was in Nuremberg, Germany, in 1662. It used a mixture of graphite, sulphur, and antimony.

Residual graphite from a pencil stick is not poisonous, and graphite is harmless if consumed.[8]

[edit] Wood holders added

It was the Italians who first thought of wooden holders. An Italian couple in particular, named Simonio and Lyndiana Bernacotti, were believed to be the ones to create the first blueprints for the modern carpentry pencil for the purpose of marking their carpentry pieces; however, their version was instead a flat, oval, more compact type of pencil. They did this at first by hollowing out a stick of juniper wood. Shortly thereafter, a superior technique was discovered: two wooden halves were carved, a graphite stick inserted, and the two halves then glued together—essentially the same method in use to this day.

English and German pencils were not available to the French during the Napoleonic wars; France, under naval blockade imposed by Great Britain, was unable to import the pure graphite sticks from the British Seathwaite Fell mines – the only known source in the world for solid graphite. France was also unable to import the inferior German graphite pencil substitute.[1] It took the efforts of an officer in Napoleon’s army to change this. In 1795, Nicholas Jacques Conté discovered a method of mixing powdered graphite with clay and forming the mixture into rods that were then fired in a kiln. By varying the ratio of graphite to clay, the hardness of the graphite rod could also be varied. This method of manufacture, which had been earlier discovered by the Austrian Joseph Hardtmuth of Koh-I-Noor in 1790, remains in use.

In England, pencils continued to be made from whole sawn graphite. Henry Bessemer's first successful invention (1838) was a method of compressing graphite powder into solid graphite thus allowing the waste from sawing to be reused.[9]

Pencil manufacturing. The top sequence shows the old method that required pieces of graphite to be cut to size; the lower sequence is the new, current method using rods of graphite and clay

American colonists imported pencils from Europe until after the American Revolution. Benjamin Franklin advertised pencils for sale in his Pennsylvania Gazette in 1729, and George Washington used a three-inch pencil when he surveyed the Ohio Territory in 1762. It is said that William Munroe, a cabinetmaker in Concord, Massachusetts, made the first American wood pencils in 1812. This was not the only pencil-making in Concord. According to Henry Petroski, transcendentalist philosopher Henry David Thoreau discovered how to make a good pencil out of inferior graphite using clay as the binder; this invention was prompted by his father's pencil factory in Concord, which employed graphite found in New Hampshire in 1821 by Charles Dunbar.

Munroe's method of making pencils was painstakingly slow, and in the neighbouring town of Acton, a pencil mill owner named Ebenezer Wood set out to automate the process at his own pencil mill located at Nashoba Brook along the old Davis Road. He used the first circular saw in pencil production. He constructed the first hexagon- and octagon-shaped pencil cases that we have today. Ebenezer did not patent his invention and shared his techniques with whoever asked. One of those was Eberhard Faber of New York, who became the leader in pencil production.[10]

Joseph Dixon, an inventor and entrepreneur involved with the Tantiusques granite mine in Sturbridge, Massachusetts, developed a means to mass produce pencils. By 1870, The Joseph Dixon Crucible Company was the world’s largest dealer and consumer of graphite and later became the contemporary Dixon Ticonderoga pencil and art supplies company.[11][12]

By the end of the 19th century over 240,000 pencils were used each day in the United States alone. The favoured timber for pencils was Red Cedar as it was aromatic and did not splinter when sharpened. In the early 1900s supplies of Red Cedar were dwindling so that pencil manufacturers were forced to recycle the wood from cedar fences and barns to maintain supply. Britain went as far as declaring the use of pencil sharpeners illegal to discourage uneccessary sharpening. The shortage led to an interest in making a mechanical pencil with the first manufactured in 1915. It was soon discovered that Incense cedar, when dyed and perfumed to resemble Red Cedar, was a suitable alternative and most pencils today are made from this timber which is grown in managed forests. Over 14 billion pencils are manufactured worldwide annually.[13]

[edit] Eraser attached

Drawing of pencil with an attached eraser from its patent application

On March 30, 1858, Hymen Lipman received the first patent for attaching an eraser to the end of a pencil.[14] In 1862 Lipman sold his patent to Joseph Reckendorfer for $100,000, who went to sue the pencil manufacturer Faber-Castell for infringement.[15] In 1875, the Supreme Court of the United States ruled against Reckendorfer declaring the patent invalid.[16]

The metal band used to mate the eraser with pencil is called a ferrule.

[edit] Manufacture

Modern pencils are made industrially by mixing finely ground graphite and clay powders, adding water, forming long spaghetti-like strings, and firing them in a kiln (thermally insulated chambers). The resulting strings are dipped in oil or molten wax, which seeps into the tiny holes of the material, resulting in smoother writing. A juniper or incense-cedar plank with several long parallel grooves is cut to fashion a “slat,” and the graphite/clay strings are inserted into the grooves. Another grooved plank is glued on top, and the whole assembly is then cut into individual pencils, which are then varnished or painted.

[edit] Grading and classification

Two HB pencils. One is labelled #2 and the other #2 1/2
A grading chart ranging from 9B to 9H

Many pencils across the world, and almost all in Europe, are graded on the European system using a continuum from “H” (for hardness) to “B” (for blackness), as well as “F” (for fine point). The standard writing pencil is graded HB. According to Petroski, this system might have been developed in the early 1900s by Brookman, an English pencil maker. It used “B” for black and “H” for hard; a pencil’s grade was described by a sequence or successive Hs or Bs such as BB and BBB for successively softer leads, and HH and HHH for successively harder ones.[17]

As of 2009, a set of pencils ranging from a very hard, light-marking pencil to a very soft, black-marking pencil usually ranges from hardest to softest as follows.

9H 8H 7H 6H 5H 4H 3H 2H H F HB B 2B 3B 4B 5B 6B 7B 8B 9B
Hardest Medium Softest

Koh-i-noor offers twenty grades from 10H to 8B for its 1500 series[18]; Derwent produces twenty grades from 9H to 9B for its Graphic pencils[19] and Staedtler produces nineteen from 9H to 8B for its Mars Lumograph pencils.[20] The main market for such wide range of grades are artists who are interested in creating a full range of tones from light grey to black. Engineers prefer harder pencils which allow for a greater control in the shape of the lead. This is reflected in the way pencils are packaged and marketed. For example, for its Graphic pencils Derwent offers three packages of 12 pencils each: Technical (with hard grades from 9H to B), Sketching (with soft grades H to 9B), and Designer (with medium grades 4H to 6B).

Pencils graded using this system are used to measure the hardness and resistance of varnishes and paints. The resistance of a coating (also known as its pencil hardness) is determined as the grade of the hardest pencil that does not mark the coating when pressed firmly against it at a 45 degree angle. [21][22]

The 2 HB grade of pencil is often the choice selection of schools and is often a requirement by the state when taking state-required exams. Ex: CSAPS and FCATS. (needs reference)

Another common method uses numbers to designate the grade of a pencil. It was originally created by Conté and adopted in the United States by Thoreau in the 19th century.[23] The following table shows approximate equivalences between the different systems[24]:

Tone U.S. World
#1 = B
#2 = HB
#2½ * = F
#3 = H
#4 = 2H

* Also seen as 2-4/8, 2.5, 2-5/10. Although widely accepted, not all manufacturers follow it; for example, Faber-Castell uses a different equivalence table in its Grip 2001 pencils: 1=2B, 2=B, 2 1/2=HB, 3=H, 4=2H.

The various graphite pencil grades are achieved by altering the proportion of graphite to clay: the more clay the harder the pencil.[25][26][27] Two pencils of the same grade but different manufacturers will not necessarily make a mark of identical tone nor have the same hardness.[28]

[edit] Color of pencils

Yellow pencil

The majority of pencils made in the United States are painted yellow.[29] According to Henry Petroski[30], this tradition began in 1890 when the L. & C. Hardtmuth Company of Austria-Hungary introduced their Koh-I-Noor brand, named after the famous diamond. It was intended to be the world's best and most expensive pencil, and at a time when most pencils were either painted in dark colours or not at all, the Koh-I-Noor was yellow. As well as simply being distinctive, the colour may have been inspired by the Austro-Hungarian flag; it was also suggestive of the Orient, at a time when the best-quality graphite came from Siberia. Other companies then copied the yellow colour so that their pencils would be associated with this high-quality brand, and chose brand names with explicit Oriental references, such as Mikado (renamed Mirado[31][32]) and Mongol.[33][34]

Not all countries use yellow pencils, however; German pencils, for example, are often green, based on the trademark colours of Faber-Castell, a major German stationery company. In southern European countries pencils tend to be dark red or black with yellow lines while in Australia they are red with black bands at one end. Pencils are commonly round, hexagonal or sometimes triangular in section. Carpenters' pencils (see below) are typically oval or rectangular.

[edit] Notable pencil users

  • Thomas Edison had his pencils specially made by Eagle Pencil. Each pencil was three inches long, was thicker than standard pencils and had softer graphite than was normally available.
  • Vladimir Nabokov rewrote everything he had ever published, usually several times, by pencil.
  • John Steinbeck was an obsessive pencil user and used around 60 a day. His novel East of Eden took more than 300 pencils to write.
  • Vincent van Gogh only used Faber-Castell pencils as they were "superior to Carpenters pencils, a capital black and most agreeable".

[edit] Types

[edit] According to their marking material

Colored pencils
Graphite pencils
These are the most common types of pencils. They are made of a mixture of clay and graphite and their darkness varies from light grey to black. Their composition allows for the smoothest strokes.
Charcoal pencils
They are made of charcoal and provide fuller blacks than graphite pencils, but tend to smudge easily and are more abrasive than graphite. Sepia-toned and white pencils are also available for duotone techniques.
Carbon pencils
They generally are made of a mixture of clay and lamp black, but are sometimes blended with charcoal or graphite depending on the darkness and manufacturer. They produce a fuller black than graphite pencils, but are smoother than charcoal.
Colored pencils
Commonly known as pencil crayons, these have wax-like cores with pigment and other fillers. Multiple colours are often blended together. The versatility of a set of crayon pencils can be determined by the number of unique colours it contains.[35]
Grease pencils
Also known as china markers. They write on virtually any surface (including glass, plastic, metal and photographs). The most commonly found grease pencils are encased in paper (Berol and Sanford Peel-off), but they can also be encased in wood (Staedtler Omnichrom).[35]
Watercolour pencils
These are designed for use with watercolour techniques. The pencils can be used by themselves for sharp, bold lines. Strokes made by the pencil can also be saturated with water and spread with brushes.[35]

[edit] According to their use

Two "woodless" graphite pencils, two charcoal pencils, and two grease pencils
Carpenter's pencils
These are pencils that have two main properties: their shape prevents them from rolling, and their lead is strong.[36] The oldest surviving pencil is a German carpenter's pencil dating from the 17th Century and now in the Faber-Castell collection.[37][38]
Copying pencils
These are graphite pencils with an added dye that creates an indelible mark. They were invented in the late 1800s for press copying and as a practical substitute for fountain pens. Their markings are often visually indistinguishable from those of standard graphite pencils, but when moistened their markings dissolve into a coloured ink, which is then pressed into another piece of paper.[39][40][41] There were used until the early 1900s when ball pens slowly replaced them.
Erasable colour pencils
Unlike wax-based coloured pencils, these can be easily erased. Their main use is in sketching, where the objective is to create an outline using the same colour that other media (such as wax pencils, or watercolour paints) would fill[42] or when the objective is to scan the colour sketch.[43] Some animators prefer col-erase to graphite pencils because they don't smudge as easily, and the different colours allow for better separation of objects in the sketch.[44] Copy-editors find them useful too, as their markings stand out more than graphite but can be erased.[45]
Non-reproducing
or Non-photo blue pencils make marks that are not reproduced by photocopiers[46] (Sanford's Copy-not or Staedtler's Mars Non-photo) or by whiteprint copiers (Staedtler's Mars Non-Print).
Stenographer's pencil
also known as steno pencil. These pencils are expected to be very reliable, and their lead is break proof. Nevertheless sometimes steno pencils are sharpened at both ends to enhance reliability. They are round to avoid pressure pain during long texts. [47]
Golf pencil
Golf pencils are usually short (a common length is 9cm) and very cheap. They are also known as library pencils, as many libraries offer them as disposable, unspillable writing instruments.

[edit] According to their shape

  • Triangular (more accurately a Reuleaux triangle)
  • Hexagonal
  • Round
  • Bendable (flexible plastic)

[edit] According to their size

Typical
Typically-sized pencil under a ruler.
A standard, hexagonal, "#2 pencil" is cut to a hexagonal height of 1/4 inch, however the outer diameter is slightly larger (about 9/32 inch.) [48]
Biggest
On September 3, 2007, Ashrita Furman unveiled his giant $20,000 pencil – 76 feet long, 18,000 pounds (with over 4,500 pounds for the graphite center) – after three weeks of creation in August 2007 as a birthday gift for teacher Sri Chinmoy. It is longer than the 65 feet pencil outside the Malaysia HQ of stationers Faber-Castell.[49][50][51]

[edit] According to their manufacture

Mechanical pencils
Pencil lead for mechanical pencils
Flexible pencils
There are also pencils which use mechanical methods to push lead through a hole at the end. The erasers are also removable (and thus replaceable), and usually cover a place to store replacement leads. Mechanical pencils are popular for their longevity and the fact that they never need sharpening. Lead types are based on thickness. Common sizes are .3, .5, .7, .9, 1.1, and 1.6 millimetres. The 2 mm size is commonly used in designing, artwork, and engineering, but is not commonly used outside these fields due to its high cost.
Plastic pencils
Invented by Arthur D. Little for Empire Pencil Company in the early 1970s; comercialized by Empire as the "EPCON" Pencil. These pencils are co-extruded, extruding a plasticized graphite mix within a wood-composite core. For information about this invention see the writeup on ADL Chronicles The Epcon Plastic Pencil.

[edit] Other types

  • The Quadrachromic Pencil is a slightly enlarged pencil with four colours equally partitioned on the tip. The use of each colour while drawing is accomplished by rotating the pencil between the fingers.
  • Penny pencil

[edit] Notes

  1. ^ Martin and Jean Norgate, Geography Department, Portsmouth University (2008). "Old Cumbria Gazetteer, black lead mine, Seathwaite". http://www.geog.port.ac.uk/webmap/thelakes/html/lgaz/lk00976.htm. Retrieved on 2008-05-19. 
  2. ^ Alfred Wainwright (2005). A Pictorial Guide to the Lakeland Fells, Western Fells. ISBN 0-7112-2460-9. 
  3. ^ "Graphite from the Plumbago Mine, Borrowdale, England". Department of Physics at Michigan Technological University. http://www.phy.mtu.edu/~jaszczak/borrowdale.html. Retrieved on 2008-03-27. 
  4. ^ "Lakeland's Mining Heritage". www.cumbria-industries.org.uk. http://www.cumbria-industries.org.uk/wad.htm. Retrieved on 2008-03-27. 
  5. ^ "Definition of Plumbago". Answers.com. http://www.answers.com/topic/plumbago. Retrieved on 2007-04-21. 
  6. ^ "Definition of Plumbago". Thefreedictionary.com. http://www.thefreedictionary.com/plumbago. Retrieved on 2007-04-21. 
  7. ^ Keswick Pencil Museum
  8. ^ Graphite - Identification, toxicity, use, water pollution potential, ecological toxicity and regulatory information
  9. ^ Bessemer, Henry. "Sir Henry Bessemer, F.R.S: An Autobiography. Chapter 3."
  10. ^ Acton Conservation Lands, Early American Pencils
  11. ^ Dixon Ticonderoga Company
  12. ^ Tantiusques Graphite Mine
  13. ^ "The Point Of It All". Discovery Channel Magazine. Volume 1, Issue 5, 2008
  14. ^ http://patft.uspto.gov/netacgi/nph-Parser?patentnumber=19783 US Patent 19783 Combination of Lead-Pencil and Eraser by L. Lipman
  15. ^ Petroski, Henry (1990). The Pencil: A History of Design and Circumstance. New York: Alfred A. Knopf. ISBN 0-394-57422-2; ISBN 0-679-73415-5, page 171
  16. ^ http://supreme.justia.com/us/92/347/case.html Reckendorfer v. Faber 92 U.S. 347 (1875)
  17. ^ Petroski 1990, page 157
  18. ^ http://www.koh-i-noor.cz/main/main.php?pageid=3211&lang=4&=&filter=&cat=24&position=30 Koh-i-noor Catalog: Graphite Pencis
  19. ^ http://www.pencils.co.uk/products/derwent.aspx?sid=3&p=1 Derwent Graphic, retrieved August 21, 2007
  20. ^ http://www.staedtler.com/Mars_Lumograph_gb.Staedtler?ActiveID=2213 Staedtler Mars Lumograph Pencils, retrieved August 21, 2007
  21. ^ This testing method is approved by the ISO as standard ISO 15184:1998 Paints and varnishes -- Determination of film hardness by pencil test http://www.iso.org/iso/iso_catalogue/catalogue_tc/catalogue_tc_browse.htm?commid=47996. See http://www.pra-world.com/technical/testingphysicalhardness.htm for a description of the test. Unfortunately the hardness of pencils is not standardized. For this reason the standard specifies various brands of pencils that are to be used in this test.
  22. ^ Simmons, Mac, "The Pencil Hardness Test", Woodwork, April 2000, p76, available at http://www.pencilpages.com/articles/simmons.htm, retrieved September 13, 2007
  23. ^ Petroski claims that Conté used integer numbers that started at 1, with higher numbers indicating softer leads, while Thoreau used higher numbers to designate harder leads (Petroski, 1990, page 157). It is believed that Thoreau developed independently his method of mixing clay and graphite, and his use of numbers to designate grades is evidence that he was at least aware of Conté methods and tried to reverse engineer them. Thoreau offered pencils graduated from 1 to 4 in the middle 1800s (Petroski, 1990, page 119), see also "Thoreau's Pencils". John H. Lienhard. The Engines of Our Ingenuity. NPR. KUHF-FM Houston. 1989. No. 339. Transcript.
  24. ^ Petroski, 1990, page 230)
  25. ^ http://www.staedtler.com/upload/graphite_video_eng_16461.mpg "Staedtler Pencil", video, retrieved August 21, 2007.
  26. ^ Petroski, 1990)
  27. ^ http://www.pencils.co.uk/heritage.aspx?id=6&sid=1 Derwent Manufacturing Process, retrieved August 21, 2007
  28. ^ Petroski claims that pencil grades vary "depending upon the manufacturer, when the pencils are made, and the source of graphite and clay. One analyst found that graphitic carbon content, for example, to vary from about 30 to about 65 in a variety of different pencils bearing the same designation." Petroski, 1990, page 229
  29. ^ 75% of the 2.8 billion pencils made in the United States are painted yellow (Steve Ritter "Pencils & Pencil Lead", Chemical & Engineering News, Volume 79, Number 42 page 35, Oct 15, 2001 http://pubs.acs.org/cen/whatstuff/stuff/7942sci4.html).
  30. ^ Petroski, 1990, pages 162-163
  31. ^ Eagle Pencil Company applied for the trademark Mirado in 1947 (US Trademark 71515261). It is common belief that this was an attempt to disassociate the pencil brand from Japan, as one of the meanings of Mikado is emperor of Japan. Petroski (Petroski, 1990) states that Eagle Pencil Company changed the name after the Attack on Pearl Harbor.
  32. ^ Mikado/Mirado pencils were originally made by Eagle Pencil Company--today Berol--but can also be found today under the trademark Papermate and Sanford as Sanford owns Berol and the trademark Papermate http://www.brandnamepencils.com/brands/eagle/mikado174.shtml Mirado Pencil
  33. ^ http://www.pencilpages.com/gallery/eberhard-faber/mongol.htm Eberhard Faber Pencil Gallery.
  34. ^ Originally made by Eberhard Faber the Mongol trademark is now owned by Sanford http://timberlines.blogspot.com/2005/08/mongolized.html Timberlines Blog "Mongolized" Aug 31, 2005, retrieved August 23, 2007
  35. ^ a b c http://palimpsest.stanford.edu/waac/wn/wn19/wn19-3/wn19-308.html Categories of Wax-Based Drawing Media
  36. ^ http://www.pencilpages.com/articles/carpentr.htm Doug Martin, 2000, "Carpenter's Pencils", retrieved August 23, 2007
  37. ^ http://www.faber-castell.com.au/docs/default-news.asp?id=19463&domid=1010&sp=E&addlastid=&m1=14248&m2=16959&m3=19364&m4=19463 "History Pencils & Historic Packaging" Faber Castell Australia, retrieved August 23, 2007
  38. ^ http://www.pencilpages.com/gallery/oldest.htm "Oldest Known Pencil in Existence", retrieved August 23, 2007.
  39. ^ http://aic.stanford.edu/sg/bpg/annual/v17/bp17-05.html The Copying Pencil: Composition, History, and Conservation Implications by Liz Dube
  40. ^ http://blog.awm.gov.au/lambert/?p=95 The Magic of Purple Pencil, retrieved August 23, 2007
  41. ^ http://www.penciltalk.org/2006/03/l-c-hardmuth-koh-i-noor-kopierstift-1561 L. & C. Hardmuth Koh-I-Noor Kopierstift 1561, retrieved August 23, 2007
  42. ^ http://www.mccannas.com/sketch/supply.htm Art Supplies
  43. ^ http://www.digitalartsonline.co.uk/tutorials/index.cfm?FeatureID=1625 Sketch to Paint in Photoshop
  44. ^ http://smacktalk.smackjeeves.com/03-paperpencilserasers/ Tools of the Trade Papers Pencils and Erases
  45. ^ http://www.pencilrevolution.com/2005/10/writing-in-color/ See comment "As a professional copy-editor..."
  46. ^ http://www.epinions.com/content_285308063364 Sanford Col-Erase Copy Not Pencils--You Can't Copy This Baby!
  47. ^ http://www.penciltalk.org/2006/06/reporter-pencils Paper and Pencil Blog "Reporter Pencils" retrieved August 23, 2007.
  48. ^ Image:PencilMeasurement.jpg
  49. ^ World's largest pencil. The Pencil Pages.
  50. ^ World’s largest pencil unveiled in New York. Sri Chinmoy News.
  51. ^ World's largest pencil (video). Metacafe.

[edit] References

  • Petroski, Henry (1990). The Pencil: A History of Design and Circumstance. New York: Alfred A. Knopf. ISBN 0-394-57422-2; ISBN 0-679-73415-5.
  • Petroski, Henry. "H. D. Thoreau, Engineer." American Heritage of Invention and Technology, Vol. 5, No. 2, pp. 8-16.

[edit] External links

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