- Venn diagram
**Venn diagrams**or "set diagrams" arediagram s that show all hypothetically possiblelogic al relations between a finite collection of sets (groups of things). Venn diagrams were invented around 1880 byJohn Venn . They are used in many fields, includingset theory ,probability ,logic ,statistics , andcomputer science .**Overview**A Venn diagram is a diagram constructed with a collection of simple closed curves drawn in the plane. The principle of these diagrams is that classes be represented by regions in such relation to one another that all the possible logical relations of these classes can be indicated in the same diagram. That is, the diagram initially leaves room for any possible relation of the classes, and the actual or given relation, can then be specified by indicating that some particular region is null or is notnull. [

]Clarence Irving Lewis (1918). [*http://www.archive.org/details/asurveyofsymboli00lewiuoft "A Survey of Symbolic Logic"*] . Republished in part by Dover in 1960. p.157.Venn diagrams are very similar to

Euler diagram s, but whereas a Venn diagram for "n" component sets must contain all 2^{"n"}hypothetically possible zones corresponding to some combination of being included or excluded in each of the component sets, Euler diagrams contain only the actually possible zones in a given context. In Venn diagrams a shaded zone may be used to represents an empty zone, whereas in an Euler diagram the corresponding zone is missing from the diagram. For example, if one set represents "dairy products" and another "cheeses", then the Venn diagram contains a zone for cheeses that are not dairy products. Assuming that in the context "cheese" means some type of dairy product, the Euler diagram will have the cheese zone entirely contained within the dairy-product zone; there is no zone for (non-existent) non-dairy cheese. This means that as the number of contours increase, Euler diagrams are typically less visually complex than the equivalent Venn diagram, particularly if the number of non-empty intersections is small. [*[*]*http://www.cs.kent.ac.uk/events/conf/2004/euler/eulerdiagrams.html Euler Diagrams*] , Brighton, UK September 22-23 2004. Retrieved 13 August 2008.Venn diagrams normally consist of overlapping

circle s. For instance, in a two-set Venn diagram, one circle may represent the group of allwood en objects, while another circle may represent the set of all tables. The overlapping area ("intersection") would then represent the set of all wooden tables. Shapes other than circles can be employed (see below), and this is necessary for more than three sets.**History**Venn diagrams were introduced in 1880 by

John Venn (1834-1923) in a paper entitled "On the Diagrammatic and Mechanical Representation of Propositions and Reasonings" which appeared in the "Philosophical Magazine and Journal of Science" in July 1880.F. Ruskey and M. Weston (2005). [*http://www.combinatorics.org/Surveys/ds5/VennJohnEJC.html "Venn Diagram Survey"*] . In: "The electronic journal of combinatorics (ed. June 2005)] The use ofdiagram s informal logic is not an easy history to trace, but it is certain that the diagrams that are popularly associated with Venn, in fact, originated much earlier. They are rightly associated with Venn, however, because he comprehensively surveyed and formalized their usage, and was the first to generalize them. The term "Venn diagram" itself was first used byClarence Irving Lewis in 1918, in his book "A Survey of Symbolic Logic"..Venn diagrams are very similar to Euler diagrams, which were invented by

Leonhard Euler (1708-1783) in the 18th century. M. E. Baron has noted thatLeibniz (1646-1716) in the 17th century produced similar diagrams before Euler, however, much of it was unpublished. She also observes even earlier Euler-like diagrams byRamon Lull in the 13th Century. [*M. E. Baron. "A Note on The Historical Development of Logic Diagrams". In: "The Mathematical Gazette: The Journal of the Mathematical Association". Vol LIII, no. 383 May 1969*]In the 20th century Venn diagrams are further developed. D.W. Henderson showed in 1963 that the existence of an "n"-Venn diagram with "n"-fold

rotational symmetry implied that "n" was prime. [*D. W. Henderson, "Venn diagrams for more than four classes". "*] He also showed that such symmetric Venn diagrams exist when "n" is 5 or 7. In 2002 Peter Hamburger found symmetric Venn diagrams for "n" = 11 and in 2003, Griggs, Killian, and Savage showed that symmetric Venn diagrams exist for all other primes. Thus symmetric Venn diagrams exist if and only if "n" is a prime number. [American Mathematical Monthly ", 70 (1963) 424–426.*cite journal |last=Ruskey |first=Frank |coauthors=Carla D. Savage, and Stan Wagon |year=2006 |month=December |title=The Search for Simple Symmetric Venn Diagrams |journal=*]Notices of the AMS |volume=53 |issue=11 |pages=1304–1311|url=http://www.ams.org/notices/200611/fea-wagon.pdf | format = PDF|accessdate=2007-04-27**A simple example**The following example involves two sets, A and B, represented here as coloured circles. The orange circle, set A, represents all living creatures that are two-legged. The blue circle, set B, represents the living creatures that can fly. Each separate type of creature can be imagined as a point somewhere in the diagram. Living creatures that both can fly "and" have two legs — for example, parrots — are then in both sets, so they correspond to points in the area where the blue and orange circles overlap. That area contains all such and only such living creatures.

Humans and penguins are bipedal, and so are then in the orange circle, but since they cannot fly they appear in the left part of the orange circle, where it does not overlap with the blue circle. Mosquitoes have six legs, and fly, so the point for mosquitoes is in the part of the blue circle that does not overlap with the orange one. Creatures that are not two-legged and cannot fly (for example, whales and spiders) would all be represented by points outside both circles.

The combined area of sets A and B is called the "union" of A and B, denoted by nowrap|A ∪ B. The union in this case contains all things that either have two legs, or that fly, or both.

The area in both A and B, where the two sets overlap, is called the "intersection" of A and B, denoted by nowrap|A ∩ B. For the example, the intersection of the two sets is not empty, because there "are" points representing creatures that are in "both" the orange and blue circles.

Sometimes a rectangle called the "Universal set" is drawn around the Venn diagram to show the space of all possible things. As mentioned above, a whale would be represented by a point that is not in the union, but is in the Universe (of living creatures, or of all things, depending on how one chose to define the Universe for a particular diagram).

**Extensions to higher numbers of sets**Venn diagrams typically have three sets. Venn was keen to find "symmetrical figures…elegant in themselves" representing higher numbers of sets and he devised a four-set diagram using

ellipse s. He also gave a construction for Venn diagrams for "any" number of sets, where each successive curve delimiting a set is interleaved with previous curves, starting with the 3-circle diagram.**Edwards' Venn diagrams**A. W. F. Edwards gave a construction to higher numbers of sets that features some symmetries. His construction is achieved by projecting the Venn diagram onto asphere . Three sets can be easily represented by taking three hemispheres at right angles ("x"=0, "y"=0 and "z"=0). A fourth set can be represented by taking a curve similar to the seam on a tennis ball which winds up and down around the equator. The resulting sets can then be projected back to the plane to give "cogwheel" diagrams with increasing numbers of teeth. These diagrams were devised while designing astained-glass window in memoriam to Venn.**Other diagrams**Edwards' Venn diagrams are topologically equivalent to diagrams devised by

Branko Grünbaum which were based around intersectingpolygon s with increasing numbers of sides. They are also 2-dimensional representations ofhypercube s.Smith devised similar "n"-set diagrams using

sine curves with equations "y"=sin(2^{"i"}"x")/2^{"i"}, 0=i="n"-2.Charles Lutwidge Dodgson (a.k.a.

Lewis Carroll ) devised a five set diagram.**ee also***

Boolean algebra (logic)

*Bubble map

*Carroll diagram

*Double bubble map

*Euler diagram

*Graphic organizers

*Mrs. Miniver's problem

*Spider diagram

*Mathematical diagram

*Vesica piscis **References****Further reading*** [

*http://www.combinatorics.org/Surveys/ds5/VennEJC.html A Survey of Venn Diagrams*] by F. Ruskey and M. Weston, is an extensive site with much recent research and many beautiful figures.

* I. Stewart "Another Fine Math You've Got Me Into" 1992 ch4

* A.W.F. Edwards. "Cogwheels of the Mind: the story of Venn diagrams", Johns Hopkins University Press, Baltimore and London, 2004.

** [*http://www.logic.univie.ac.at/~thompson/papers/venn-review.pdf Review of Cogwheels of the Mind*]

* cite journal

author = John Venn

title = On the Diagrammatic and Mechanical Representation of Propositions and Reasonings

journal = Dublin Philosophical Magazine and Journal of Science

volume = 9

issue = 59

pages = 1--18

date = 1880**External links*** [

*http://www.combinatorics.org/Surveys/ds5/VennWhatEJC.html What is a Venn diagram?*] , from the survey page (below).

* [*http://www.logictutorial.com/ LogicTutorial.com*] - interactive Johnston diagram

* [*http://www.cut-the-knot.org/LewisCarroll/dunham.shtml Lewis Carroll's Logic Game — Venn vs. Euler*] atcut-the-knot

* [*http://www.combinatorics.org/Surveys/ds5/VennEJC.html A Survey of Venn Diagrams*]**Tools for making Venn Diagrams***

Ploticus

*ConceptDraw

*SmartDraw

*Microsoft PowerPoint

* [*http://www.classtools.net/help_pages/venn.htm Venn Diagram - Flash Template*]

* [*http://sourceforge.net/projects/venn/ VennDiagrams Project on SourceForge*]

* [*http://barnyard.syr.edu/software.shtml Winvenn*] - for Windows 95

* [*http://www.cs.kent.ac.uk/people/staff/pjr/EulerVennCircles/EulerVennApplet.html 3 Circle Venn Diagram Applet*]

* [*http://bioinfogp.cnb.csic.es/tools/venny/index.html "Venny"*] - Compare up to 4 lists with Venn diagrams

* [*http://www.informatik.uni-ulm.de/ni/mitarbeiter/HKestler/vennm/doc.html VennMaster Software*]

* [*http://omics.pnl.gov/software/VennDiagramPlotter.php Venn Diagram Plotter*] - Area proportional 2 and 3 circle Venn diagrams

* [*http://code.google.com/apis/chart/ Google Chart API*]

*Wikimedia Foundation.
2010.*

### Look at other dictionaries:

**Venn diagram**— Venn o diagrama statusas T sritis automatika atitikmenys: angl. Venn diagram vok. Venn Diagramm, n rus. диаграмма Венна, f pranc. diagramme de Venn, m ryšiai: sinonimas – Veno diagrama … Automatikos terminų žodynas**Venn diagram**— ► NOUN ▪ a diagram representing mathematical or logical sets as circles, common elements of the sets being represented by intersections of the circles. ORIGIN named after the English logician John Venn (1834 1923) … English terms dictionary**Venn diagram**— [ven] n. [after John Venn (1834 1923), Eng logician] Math. a diagram, esp. in symbolic logic, using overlapping circles, often shaded or crosshatched, to show relationships between sets … English World dictionary**Venn diagram**— 1884, named for English logician John Venn (1834 1923) … Etymology dictionary**Venn diagram**— A kind of diagram invented by Venn in 1881, for representing and assessing the validity of elementary inferences either of a syllogistic form, or from the Boolean algebra of classes (Venn was attempting to illustrate Boole s own methods). In a… … Philosophy dictionary**Venn diagram**— UK [ˈven ˌdaɪəɡræm] / US noun [countable] Word forms Venn diagram : singular Venn diagram plural Venn diagrams maths a drawing of circles that cross over each other, showing features shared by different sets (= groups of numbers) … English dictionary**Venn Diagram**— An illustration that uses overlapping or non overlapping circles to show the relationship between finite groups of things. This type of diagram gets its name from John Venn, who introduced the illustration in 1880. Where the circles overlap,… … Investment dictionary**Venn diagram**— Venn′ di agram [[t]vɛn[/t]] n. math. pho math., logic a diagram that uses circles to represent sets and their relationships • Etymology: 1940–45; after John Venn (1834–1923), English logician … From formal English to slang**Venn diagram**— Venn di|a|gram [ˈven ˌdaıəgræm] n [Date: 1900 2000; Origin: John Venn (1834 1923), British logician] a picture showing the relationship between several things by using circles that partly cover each other … Dictionary of contemporary English**Venn diagram**— Venn di|a|gram [ ven ,daıəgræm ] noun count a drawing of circles that cross over each other, showing features shared by different SETS (=groups of numbers or information) … Usage of the words and phrases in modern English