Converse nonimplication
In logic, converse nonimplication[1] is a logical connective which is the negation of the converse of implication.
Definition
which is the same as
Truth table
The truth table of .[2]
p | q | ⊄ |
---|---|---|
T | T | F |
T | F | F |
F | T | T |
F | F | F |
Venn diagram
The Venn Diagram of "It is not the case that B implies A" (the red area is true).
Also related to the relative complement (set theory), where the relative complement of A in B is denoted B ∖ A.
Properties
falsehood-preserving: The interpretation under which all variables are assigned a truth value of 'false' produces a truth value of 'false' as a result of converse nonimplication
Symbol
Alternatives for are
- : combines Converse implication's left arrow() with Negation's tilde().
- : uses prefixed capital letter.
- : combines Converse implication's left arrow() denied by means of a stroke(/).
Natural language
Rhetorical
"not A but B"
Boolean algebra
Converse Nonimplication in a general Boolean algebra is defined as .
Example of a 2-element Boolean algebra: the 2 elements {0,1} with 0 as zero and 1 as unity element, operators as complement operator, as join operator and as meet operator, build the Boolean algebra of propositional logic.
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and |
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and |
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then means |
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(Negation) | (Inclusive Or) | (And) | (Converse Nonimplication) |
Example of a 4-element Boolean algebra: the 4 divisors {1,2,3,6} of 6 with 1 as zero and 6 as unity element, operators (codivisor of 6) as complement operator, (least common multiple) as join operator and (greatest common divisor) as meet operator, build a Boolean algebra.
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and |
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and |
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then means |
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(Codivisor 6) | (Least Common Multiple) | (Greatest Common Divisor) | (x's greatest Divisor coprime with y) |
Properties
Non-associative
iff #s5 (In a two-element Boolean algebra the latter condition is reduced to or ). Hence in a nontrivial Boolean algebra Converse Nonimplication is nonassociative.
Clearly, it is associative iff .
Non-commutative
- iff #s6. Hence Converse Nonimplication is noncommutative.
Neutral and absorbing elements
- 0 is a left neutral element () and a right absorbing element ().
- , , and .
- Implication is the dual of Converse Nonimplication #s7.
Converse Nonimplication is noncommutative | ||||
---|---|---|---|---|
Step | Make use of | Resulting in | ||
Definition | ||||
Definition | ||||
- expand Unit element | ||||
- evaluate expression | ||||
- regroup common factors | ||||
- join of complements equals unity | ||||
- evaluate expression | ||||
Implication is the dual of Converse Nonimplication | ||||
---|---|---|---|---|
Step | Make use of | Resulting in | ||
Definition | ||||
- .'s dual is + | ||||
- Involution complement | ||||
- De Morgan's laws applied once | ||||
- Commutative law | ||||
Computer science
An example for converse nonimplication in computer science can be found when performing a right outer join on a set of tables from a database, if records not matching the join-condition from the "left" table are being excluded.[3]
References
- ↑ Lehtonen, Eero, and Poikonen, J.H.
- ↑ Knuth 2011, p. 49
- ↑ http://www.codinghorror.com/blog/2007/10/a-visual-explanation-of-sql-joins.html
- Knuth, Donald E. (2011). The Art of Computer Programming, Volume 4A: Combinatorial Algorithms, Part 1 (1st ed.). Addison-Wesley Professional. ISBN 0-201-03804-8.