Complement (set theory) Guide, Meaning , Facts, Information and Description
In set theory and other branches of mathematics, two kinds of complements are defined, the relative complement and the absolute complement.
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2 Absolute complement 3 See also |
Relative complement
If A and B are sets, then the relative complement of a A
in B, also known as the set theoretic difference of B and A, is the set of elements in A, but not in B.
of A in B
The relative complement of B in A is usually written B − A (also B \\ A).
Formally:
- {1,2,3} − {2,3,4} = {1}
- {2,3,4} − {1,2,3} = {4}
- If is the set of real numbers and is the set of rational numbers, then is the set of irrational numbers.
PROPOSITION 1: If A, B, and C are sets, then the following identities hold:
- C − (A ∩B) = (C − A) ∪(C − B)
- C − (A ∪B) = (C − A) ∩(C − B)
- C − (B − A) = (A ∩C) ∪(C − B)
- (B − A) ∩C = (B ∩C) − A = B ∩(C − A)
- (B − A) ∪C = (B ∪C) − (A − C)
- A − A = Ø
- Ø − A = Ø
- A − Ø = A
Absolute complement
- AC = U − A
The following proposition lists some important properties of absolute complements in relation to the set-theoretic operations of union and intersection.
PROPOSITION 2: If A and B are subsets of a universal set U, then the following identities hold:
- De Morgan's laws:
- (A ∪B)C = AC ∩BC
- (A ∩B)C = AC ∪BC
- complement laws:
- A ∪AC = U
- A ∩AC = Ø
- ØC = U
- UC = Ø
- involution or double complement law:
- ACC = A.
- ACC = A.