Difference between revisions of "Power set"

Revision as of 11:02, 17 August 2006

The power set of a given set $S$ is the set $P(S)$ of subsets of that set.

The empty set has only one subset, itself. Thus $P(\emptyset) = \{\emptyset\}$ .

A set $\{a\}$ with a single element has two subsets, the empty set and the entire set. Thus $P(\{a\}) = \{\emptyset, \{a\}\}$ .

A set $\{a, b\}$ with two elements has four subsets, and $P(\{a, b\}) = \{\emptyset, \{a\}, \{b\}, \{a, b\}\}$ .

Similarly, for any finite set with $n$ elements, the power set has $2^n$ elements.

Note that for nonnegative integers, $2^n > n$ so the power set of any set is larger than the set itself. An analogous result holds for infinite sets: for any set $S$ , there is no bijection between $S$ and $P(S)$ (or equivalently, there is no injection from $P(S)$ to $S$ ).

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 Similarly, for any [[finite]] set with <math>n</math> elements, the power set has <math>2^n</math> elements.
-Note that for [[nonnegative integer]]s, <math>2^n > n</math> so the power set of any set is larger than the set itself.  An analogous result holds for [[infinite]] sets: for any set <math>S</math>, there is no [[bijection]] between <math>S</math> and <math>P(S)</math> (or equivalently, there is no [[injection]] from <math>P(S)</math> to <math>S</math>).
+Note that for [[nonnegative]] [[integer]]s, <math>2^n > n</math> so the power set of any set is larger than the set itself.  An analogous result holds for [[infinite]] sets: for any set <math>S</math>, there is no [[bijection]] between <math>S</math> and <math>P(S)</math> (or equivalently, there is no [[injection]] from <math>P(S)</math> to <math>S</math>).
 ===Proof===

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Difference between revisions of "Power set"

Revision as of 11:02, 17 August 2006

Proof

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