Scope (logic)


In logic, the scope of a quantifier or connective is the shortest formula in which it occurs, determining the range in the formula to which the quantifier or connective is applied. The notions of a free variable and bound variable are defined in terms of whether that formula is within the scope of a quantifier, and the notions of a and are defined in terms of whether a connective includes another within its scope.''''''

Connectives

The scope of a logical connective occurring within a formula is the smallest well-formed formula that contains the connective in question.' The connective with the largest scope in a formula is called its dominant connective, ''main connective,' main operator, major connective, or principal connective; a connective within the scope of another connective is said to be subordinate'' to it.'
For instance, in the formula, the dominant connective is ↔, and all other connectives are subordinate to it; the is subordinate to the ∨, but not to the ; the first ¬ is also subordinate to the ∨, but not to the →; the second ¬ is subordinate to the ∧, but not to the ∨ or the →; and the third ¬ is subordinate to the second ¬, as well as to the ∧, but not to the ∨ or the →.' If an order of precedence is adopted for the connectives, viz., with ¬ applying first, then ∧ and ∨, then →, and finally ↔, this formula may be written in the less parenthesized form, which some may find easier to read.''''''

Quantifiers

The scope of a quantifier is the part of a logical expression over which the quantifier exerts control. It is the shortest full sentence written right after the quantifier, often in parentheses; some authors describe this as including the variable written right after the universal or existential quantifier. In the formula, for example, is the scope of the quantifier .
This gives rise to the following definitions:
  • An occurrence of a quantifier or, immediately followed by an occurrence of the variable, as in or, is said to be -binding.
  • An occurrence of a variable in a formula is free in if, and only if, it is not in the scope of any -binding quantifier in ; otherwise it is bound in.
  • A closed formula is one in which no variable occurs free; a formula which is not closed is open.
  • An occurrence of a quantifier or is vacuous if, and only if, its scope is or, and the variable does not occur free in.
  • A variable is free for a variable if, and only if, no free occurrences of lie within the scope of a quantification on.
  • A quantifier whose scope contains another quantifier is said to have wider scope than the second, which, in turn, is said to have narrower scope than the first.