Monotonicity of entailment

Monotonicity of entailment is a property of many logical systems such that if a sentence follows deductively from a given set of sentences then it also follows deductively from any superset of those sentences. A corollary is that if a given argument is deductively valid, it cannot become invalid by the addition of extra premises.^[1][2]

Logical systems with this property are called monotonic logics in order to differentiate them from non-monotonic logics. Classical logic and intuitionistic logic are examples of monotonic logics.

Weakening rule

Monotonicity may be stated formally as a rule called weakening, or sometimes thinning. A system is monotonic if and only if the rule is admissible. The weakening rule may be expressed as a natural deduction sequent:

${\displaystyle {\frac {\Gamma \vdash C}{\Gamma ,A\vdash C}}}$

This can be read as saying that if, on the basis of a set of assumptions ${\displaystyle \Gamma }$, one can prove C, then by adding an assumption A, one can still prove C.

Example

The following argument is valid: "All men are mortal. Socrates is a man. Therefore Socrates is mortal." This can be weakened by adding a premise: "All men are mortal. Socrates is a man. Cows produce milk. Therefore Socrates is mortal." By the property of monotonicity, the argument remains valid with the additional premise, even though the premise is irrelevant to the conclusion.

Non-monotonic logics

In most logics, weakening is either an inference rule or a metatheorem if the logic doesn't have an explicit rule. Notable exceptions are:

• Relevance logic, where every premise is necessary for the conclusion.
• Linear logic, which lacks monotonicity and idempotency of entailment.

See also

• Contraction
• Exchange rule
• Substructural logic
• No-cloning theorem

Notes

References

Hedman, Shawn (2004). A First Course in Logic. Oxford University Press.

Chiswell, Ian; Hodges, Wilfrid (2007). Mathematical Logic. Oxford University Press.

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Classical logic

General

• Quantifiers
• Predicate
• Connective
• Tautology
• Truth tables
• Truth function
• Truth value
• Well-formed formula
• Idempotency of entailment
• Logicism
• Problem of multiple generality
• Associativity
• Distribution
• Validity
• Soundness

Classical logics

• Term
• Propositional
• First-order
• Second-order
• Higher-order

Principles

• Commutativity of conjunction
• Excluded middle
• Bivalence
• Noncontradiction
• Monotonicity of entailment
• Explosion

Rules

• De Morgan's laws
• Material implication
• Transposition
• modus ponens
• modus tollens
• modus ponendo tollens
• Constructive dilemma
• Destructive dilemma
• Disjunctive syllogism
• Hypothetical syllogism
• Absorption

Introduction	Negation Double negation Existential Universal Biconditional Conjunction Disjunction
Elimination	Double negation Existential Universal Biconditional Conjunction Disjunction

People

• Bernard Bolzano
• George Boole
• Georg Cantor
• Richard Dedekind
• Augustus De Morgan
• Gottlob Frege
• Kurt Gödel
• Hugh MacColl
• Giuseppe Peano
• Charles Sanders Peirce
• Bertrand Russell
• Ernst Schröder
• Henry M. Sheffer
• Alfred Tarski
• Willard Van Orman Quine
• Ludwig Wittgenstein
• Jan Łukasiewicz

Works

• Begriffsschrift
• Function and Concept
• The Principles of Mathematics
• Principia Mathematica
• Tractatus Logico-Philosophicus

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