Biconditional elimination: Difference between revisions
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'''Biconditional elimination''' is the name of two [[validity|valid]] [[rule of inference|rules of inference]] of [[propositional calculus|propositional logic]]. It allows for one to [[inference|infer]] a [[Material conditional|conditional]] from a [[Logical biconditional|biconditional]]. If <math>(P \leftrightarrow Q)</math> is true, then one may infer that <math>(P \to Q)</math> is true, and also that <math>(Q \to P)</math> is true.<ref name=Cohen2007>{{cite web|last=Cohen|first=S. Marc|title=Chapter 8: The Logic of Conditionals|url=http://faculty.washington.edu/smcohen/120/Chapter8.pdf|publisher=University of Washington|accessdate=8 October 2013}}</ref> For example, if it's true that I'm breathing [[if and only if]] I'm alive, then it's true that if I'm breathing, I'm alive; likewise, it's true that if I'm alive, I'm breathing. The rules can be stated formally as: | |||
:<math>\frac{(P \leftrightarrow Q)}{\therefore (P \to Q)}</math> | |||
and | |||
:<math>\frac{(P \leftrightarrow Q)}{\therefore (Q \to P)}</math> | |||
where the rule is that wherever an instance of "<math>(P \leftrightarrow Q)</math>" appears on a line of a proof, either "<math>(P \to Q)</math>" or "<math>(Q \to P)</math>" can be placed on a subsequent line; | |||
== Formal notation == | |||
The ''biconditional elimination'' rule may be written in [[sequent]] notation: | |||
:<math>(P \leftrightarrow Q) \vdash (P \to Q)</math> | |||
and | |||
:<math>(P \leftrightarrow Q) \vdash (Q \to P)</math> | |||
where <math>\vdash</math> is a [[metalogic]]al symbol meaning that <math>(P \to Q)</math>, in the first case, and <math>(Q \to P)</math> in the other are [[logical consequence|syntactic consequences]] of <math>(P \leftrightarrow Q)</math> in some [[formal system|logical system]]; | |||
or as the statement of a truth-functional [[Tautology (logic)|tautology]] or [[theorem]] of propositional logic: | |||
:<math>(P \leftrightarrow Q) \to (P \to Q)</math> | |||
:<math>(P \leftrightarrow Q) \to (Q \to P)</math> | |||
where <math>P</math>, and <math>Q</math> are propositions expressed in some formal system. | |||
==See also== | |||
* [[Logical biconditional]] | |||
==References== | |||
{{Reflist}} | |||
{{DEFAULTSORT:Biconditional Elimination}} | |||
[[Category:Rules of inference]] | |||
[[Category:Theorems in propositional logic]] | |||
Revision as of 05:52, 8 October 2013
Biconditional elimination is the name of two valid rules of inference of propositional logic. It allows for one to infer a conditional from a biconditional. If is true, then one may infer that is true, and also that is true.[1] For example, if it's true that I'm breathing if and only if I'm alive, then it's true that if I'm breathing, I'm alive; likewise, it's true that if I'm alive, I'm breathing. The rules can be stated formally as:
and
where the rule is that wherever an instance of "" appears on a line of a proof, either "" or "" can be placed on a subsequent line;
Formal notation
The biconditional elimination rule may be written in sequent notation:
and
where is a metalogical symbol meaning that , in the first case, and in the other are syntactic consequences of in some logical system;
or as the statement of a truth-functional tautology or theorem of propositional logic:
where , and are propositions expressed in some formal system.
See also
References
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