Mathematics-Online lexicon: Logical Operations

	[home] [lexicon] [problems] [tests] [courses] [auxiliaries] [notes] [staff]
	Mathematics-Online lexicon:
	Logical Operations

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

overview

Logical statements may be joined via operations listed in the following table.

Operation

Notation

(read as)

is true if and only if

Negation

$\lnot A$

(not

)

is false

Conjunction

$A\land B$

(

and

)

both

and

are true

Disjunction

$A\lor B$

(

)

is true (or both are true)

Antivalence

$A \not\equiv B$

(either

)

and

are assigned different truth values

Implication

$A\Rightarrow B$
$B\Leftarrow A$

( implies )
( follows from )

is false or

is true

Equivalence

$A\Leftrightarrow B$

(

is equivalent to

)

and

are assigned identical truth values

In order to reduce the usage of parentheses in logical formulas, we define that $\lnot$ is more closely linked to a symbol than $\land$ and $\lor$ , which in turn are more closely linked than $\Rightarrow$ , $\Leftrightarrow$ and $\not\equiv$ .

Note that an implication $A\Rightarrow B$ only requires the truth of if is true. A false proposition implies anything, hence both true and false implications can be drawn.

Usually, the or-connective is symbolised by a v, derived from the word vel (Latin: or), yet it is also common practice to use the symbol ,,``; then ,, $\cdot$ ``symbolizes the and-connective. Using 0 to refer to the truth value ,,false``while interpreting any other value as ,,true``enables us to determine the truth value of logical formulas via calculation with natural numbers.
Particularly computer-linguists frequently use the English terms NOT (negation), AND (conjunction), OR (disjunction), EXOR or XOR (exclusive or, antivalence) as well as their negations NAND (negated conjunction), NOR (negated disjunction) and NXOR (equivalence).

(Authors: Höllig/Hörner/Kimmerle/Abele)

Example:

Beispiele für das Verknüpfen von Aussagen (german)

[Links]

automatically generated 5/25/2009