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In propositional logic, the commutativity of conjunction is a valid argument form and truth-functional tautology. It is considered to be a law of classical logic. It is the principle that the conjuncts of a logical conjunction may switch places with each other, while preserving the truth-value of the resulting proposition.^[1]

Formal notation

Commutativity of conjunction can be expressed in sequent notation as:

(P\land Q)\vdash (Q\land P)

and

(Q\land P)\vdash (P\land Q)

where $\vdash$ is a metalogical symbol meaning that $(Q\land P)$ is a syntactic consequence of $(P\land Q)$ , in the one case, and $(P\land Q)$ is a syntactic consequence of $(Q\land P)$ in the other, in some logical system;

or in rule form:

{\frac {P\land Q}{\therefore Q\land P}}

and

{\frac {Q\land P}{\therefore P\land Q}}

where the rule is that wherever an instance of " $(P\land Q)$ " appears on a line of a proof, it can be replaced with " $(Q\land P)$ " and wherever an instance of " $(Q\land P)$ " appears on a line of a proof, it can be replaced with " $(P\land Q)$ ";

or as the statement of a truth-functional tautology or theorem of propositional logic:

(P\land Q)\to (Q\land P)

and

(Q\land P)\to (P\land Q)

where $P$ and $Q$ are propositions expressed in some formal system.

Generalized principle

For any propositions H₁, H₂, ... H_n, and permutation σ(n) of the numbers 1 through n, it is the case that:

H₁

\land

H₂

\land

...

\land

H_n

is equivalent to

H_σ(1)

\land

H_σ(2)

\land

H_σ(n).

For example, if H₁ is

It is raining

H₂ is

Socrates is mortal

and H₃ is

2+2=4

then

It is raining and Socrates is mortal and 2+2=4

is equivalent to

Socrates is mortal and 2+2=4 and it is raining

and the other orderings of the predicates.

References

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[1]

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+In [[propositional calculus|propositional logic]], the '''commutativity of conjunction''' is a [[validity|valid]] [[argument form]] and truth-functional [[tautology (logic)|tautology]]. It is considered to be a law of [[classical logic]]. It is the principle that the conjuncts of a [[logical conjunction]] may switch places with each other, while preserving the [[truth-value]] of the resulting proposition.<ref>{{cite book|title=Introduction to Mathematical Logic|author=Elliott Mendelson|year=1997|publisher=CRC Press|isbn=0-412-80830-7}}</ref>
+== Formal notation ==
+''Commutativity of conjunction'' can be expressed in [[sequent]] notation as:
+: <math>(P \and Q) \vdash (Q \and P)</math>
+and
+: <math>(Q \and P) \vdash (P \and Q)</math>
+where <math>\vdash</math> is a [[metalogic]]al symbol meaning that <math>(Q \and P)</math> is a [[logical consequence|syntactic consequence]] of <math>(P \and Q)</math>, in the one case, and <math>(P \and Q)</math> is a syntactic consequence of <math>(Q \and P)</math> in the other, in some [[formal system|logical system]];
+or in [[rule of inference|rule form]]:
+:<math>\frac{P \and Q}{\therefore Q \and P}</math>
+and
+:<math>\frac{Q \and P}{\therefore P \and Q}</math>
+where the rule is that wherever an instance of "<math>(P \and Q)</math>" appears on a line of a proof, it can be replaced with "<math>(Q \and P)</math>" and wherever an instance of "<math>(Q \and P)</math>" appears on a line of a proof, it can be replaced with "<math>(P \and Q)</math>";
+or as the statement of a truth-functional tautology or [[theorem]] of propositional logic:
+:<math>(P \and Q) \to (Q \and P)</math>
+and
+:<math>(Q \and P) \to (P \and Q)</math>
+where <math>P</math> and <math>Q</math> are [[proposition]]s expressed in some formal system.
+== Generalized principle ==
+For any propositions H<sub>1</sub>, H<sub>2</sub>, ... H<sub>''n''</sub>, and permutation σ(n) of the numbers 1 through n, it is the case that:
+:H<sub>1</sub> <math>\land</math>  H<sub>2</sub> <math>\land</math> ... <math>\land</math> H<sub>n</sub>
+is equivalent to
+:H<sub>σ(1)</sub> <math>\land</math> H<sub>σ(2)</sub> <math>\land</math> H<sub>σ(n)</sub>.
+For example, if H<sub>1</sub> is
+:''It is raining''
+H<sub>2</sub> is
+:''[[Socrates]] is mortal''
+and H<sub>3</sub> is
+:''2+2=4''
+then
+''It is raining and Socrates is mortal and 2+2=4''
+is equivalent to
+''Socrates is mortal and 2+2=4 and it is raining''
+and the other orderings of the predicates.
+==References==
+{{reflist}}
+[[Category:Classical logic]]
+[[Category:Rules of inference]]
+[[Category:Theorems in propositional logic]]

Settling time: Difference between revisions

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Formal notation

Generalized principle

References

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