Conjunction elimination
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Type | Rule of inference |
---|---|
Field | Propositional calculus |
Statement | If the conjunction and is true, then is true, and is true. |
Symbolic statement | |
In propositional logic, conjunction elimination (also called and elimination, ∧ elimination,[1] or simplification)[2][3][4] is a valid immediate inference, argument form and rule of inference which makes the inference that, if the conjunction A and B is true, then A is true, and B is true. The rule makes it possible to shorten longer proofs by deriving one of the conjuncts of a conjunction on a line by itself.
An example in English:
- It's raining and it's pouring.
- Therefore it's raining.
The rule consists of two separate sub-rules, which can be expressed in formal language as:
and
The two sub-rules together mean that, whenever an instance of "" appears on a line of a proof, either "" or "" can be placed on a subsequent line by itself. The above example in English is an application of the first sub-rule.
Formal notation
[edit]The conjunction elimination sub-rules may be written in sequent notation:
and
where is a metalogical symbol meaning that is a syntactic consequence of and is also a syntactic consequence of in logical system;
and expressed as truth-functional tautologies or theorems of propositional logic:
and
where and are propositions expressed in some formal system.
References
[edit]- ^ David A. Duffy (1991). Principles of Automated Theorem Proving. New York: Wiley. Sect.3.1.2.1, p.46
- ^ Copi and Cohen[citation needed]
- ^ Moore and Parker[citation needed]
- ^ Hurley[citation needed]