Venn diagram
A graphic representation of formulas of mathematical logic, mainly formulas of the propositional calculus. A Venn diagram of 
variables 
of classical propositional logic is a selection of closed contours 
(with homeomorphic circumferences) which subdivides the plane into 
domains, some of which (e.g. 
, 
) are marked. Each marked domain 
, 
, is put into correspondence with the formula 
where 
, 
, is 
if 
lies within the contour 
and 
is 
otherwise. The formula corresponding to the diagram as a whole is 
. Thus, the Venn diagram in the figure corresponds to the formula
 |
If there are no marked domains (
), the diagram corresponds to an identically-false formula, e.g. 
. In propositional logic, Venn diagrams are used to solve decision problems, the problem of deducing all possible pairwise non-equivalent logical consequences from given premises, etc. Propositional logic may be constructed as operations over Venn diagrams brought into correspondence with logical operations.
Figure: v096550a
The apparatus of diagrams was proposed by J. Venn [1] to solve problems in the logic of classes. The method was then extended to the classical many-place predicate calculus. Venn diagrams are used in applications of mathematical logic and theory of automata, in particular in solving the problems of neural nets.
References
| [1] | J. Venn, "Symbolic logic" , London (1894) |
| [2] | A.S. Kuzichev, "Venn diagrams" , Moscow (1968) (In Russian) |
Comments
The idea of Venn diagrams goes back to L. Euler and they are sometimes also called Euler diagrams.
References
| [a1] | P. Suppes, "Introduction to logic" , v. Nostrand (1957) pp. §9.8 |
| [a2] | G. Birkhoff, S. MacLane, "A survey of modern algebra" , Macmillan (1953) pp. 336ff |
| [a3] | B. Rosser, "Logic for mathematicians" , McGraw-Hill (1953) pp. 227–228; 237ff |
Venn diagram. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Venn_diagram&oldid=32575