Element (mathematics)

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In mathematics, an element (or member) of a set is any one of the distinct objects that belong to that set.

Sets[edit]

Writing means that the elements of the set A are the numbers 1, 2, 3 and 4. Sets of elements of A, for example , are subsets of A.

Sets can themselves be elements. For example, consider the set . The elements of B are not 1, 2, 3, and 4. Rather, there are only three elements of B, namely the numbers 1 and 2, and the set .

The elements of a set can be anything. For example, is the set whose elements are the colors red, green and blue.

In logical terms, (xy) ↔ (∀x[Px = y] : x ∈ 𝔇y).[clarification needed]

Notation and terminology[edit]

The relation "is an element of", also called set membership, is denoted by the symbol "∈". Writing

means that "x is an element of A".[1] Equivalent expressions are "x is a member of A", "x belongs to A", "x is in A" and "x lies in A". The expressions "A includes x" and "A contains x" are also used to mean set membership, although some authors use them to mean instead "x is a subset of A".[2] Logician George Boolos strongly urged that "contains" be used for membership only, and "includes" for the subset relation only.[3]

For the relation ∈ , the converse relationT may be written

meaning "A contains or includes x".

The negation of set membership is denoted by the symbol "∉". Writing

means that "x is not an element of A".

The symbol ∈ was first used by Giuseppe Peano, in his 1889 work Arithmetices principia, nova methodo exposita.[4] Here he wrote on page X:

Signum ∈ significat est. Ita a ∈ b legitur a est quoddam b; …

which means

The symbol ∈ means is. So a ∈ b is read as a is a certain b; …

The symbol itself is a stylized lowercase Greek letter epsilon ("ϵ"), the first letter of the word ἐστί, which means "is".[4]


Character information
Preview
Unicode name ELEMENT OF NOT AN ELEMENT OF CONTAINS AS MEMBER DOES NOT CONTAIN AS MEMBER
Encodings decimal hex dec hex dec hex dec hex
Unicode 8712 U+2208 8713 U+2209 8715 U+220B 8716 U+220C
UTF-8 226 136 136 E2 88 88 226 136 137 E2 88 89 226 136 139 E2 88 8B 226 136 140 E2 88 8C
Numeric character reference ∈ ∈ ∉ ∉ ∋ ∋ ∌ ∌
Named character reference ∈, ∈, ∈, ∈ ∉, ∉, ∉ ∋, ∋, ∋, ∋ ∌, ∌, ∌
LaTeX \in \notin \ni \not\ni or \notni
Wolfram Mathematica \[Element] \[NotElement] \[ReverseElement] \[NotReverseElement]

Examples[edit]

Using the sets defined above, namely A = {1, 2, 3, 4}, B = {1, 2, {3, 4}} and C = {red, green, blue}, the following statements are true:

  • 2 ∈ A
  • 5 ∉ A
  • {3, 4} ∈ B
  • 3 ∉ B
  • 4 ∉ B
  • yellow ∉ C

Cardinality of sets[edit]

The number of elements in a particular set is a property known as cardinality; informally, this is the size of a set.[5] In the above examples, the cardinality of the set A is 4, while the cardinality of set B and set C are both 3. An infinite set is a set with an infinite number of elements, while a finite set is a set with a finite number of elements. The above examples are examples of finite sets. An example of an infinite set is the set of positive integers {1, 2, 3, 4, ...}.

Formal relation[edit]

As a relation, set membership must have a domain and a range. Conventionally the domain is called the universe denoted U. The range is the set of subsets of U called the power set of U and denoted P(U). Thus the relation is a subset of U x P(U). The converse relation is a subset of P(U) x U.

See also[edit]

References[edit]

  1. ^ Weisstein, Eric W. "Element". mathworld.wolfram.com. Retrieved 2020-08-10.
  2. ^ Eric Schechter (1997). Handbook of Analysis and Its Foundations. Academic Press. ISBN 0-12-622760-8. p. 12
  3. ^ George Boolos (February 4, 1992). 24.243 Classical Set Theory (lecture) (Speech). Massachusetts Institute of Technology.
  4. ^ a b Kennedy, H. C. (July 1973). "What Russell learned from Peano". Notre Dame Journal of Formal Logic. 14 (3). Duke University Press: 367–372. doi:10.1305/ndjfl/1093891001. MR 0319684.
  5. ^ "Sets - Elements | Brilliant Math & Science Wiki". brilliant.org. Retrieved 2020-08-10.

Further reading[edit]