In logic and the propositional calculus, double negative elimination is a rule that states that double negatives can be removed from a proposition without changing its meaning:
- It's not the case that it's not raining.
means the same as:
- It's raining.
Formally:
¬ ¬ A
∴ A
The rule of double negative introduction states the converse, that double negatives can be added without changing the meaning of a proposition.
These two rules — double negative elimination and introduction — can be restated as follows (in sequent notation):
- ,
- .
Applying the Deduction Theorem to each of these two inference rules produces the pair of valid conditional formulas
- ,
- ,
which can be combined together into a single biconditional formula
- .
Since biconditionality is an equivalence relation, any instance of ¬ ¬ A in a well-formed formula can be replaced by A, leaving unchanged the truth-value of the wff.
Double negative elimination is a theorem of classical logic, but not intuitionistic logic. Because of the constructive flavor of intuitionistic logic, a statement such as It's not the case that it's not raining is weaker than It's raining. The latter requires a proof of rain, whereas the former merely requires a proof that rain would not be contradictory. (This distinction also arises in natural language in the form of litotes.) Double negation introduction is a theorem of intuitionistic logic, as is .
In set theory also we have the negation operation of the complement which obeys this property: a set A and a set (AC)C (where AC represents the complement of A) are the same.
Last updated: 05-23-2005 18:46:58
Last updated: 10-29-2005 02:13:46