# Definition of Universal set

"Universal set is the set that all the sets in study ares subsets"

Ok, so let´s consider this set:

$$U = \{A\, , \,B\, ;\, 1 \}$$

$$U = \{\,\{2\,;\,3\,\}\,;\,\{\,3\,;\,4\,\}\,;\,1\,\}$$

So $$\{2\,;\,3\,\} \in\,U$$ and $$\{2\,;\,3\,\}$$ is not a subset of $$U$$

Then, $$\{\,\{2\,;\,3\,\} \notin U$$ wich is wrong

• In this case you should have $U=\{1,2,3,4\}$. – copper.hat Oct 31 '13 at 17:51
• It's unclear what you're asking, in part because of the botched first sentence of your question. Do you wonder what "universe" means, in some context? – Magdiragdag Oct 31 '13 at 17:52

Your $U$ is a universal set only if the sets that you’re studying are limited to the following eight sets: $\varnothing$; $\{\{2,3\}\}$; $\{\{3,4\}\}$; $\{\{1\}\}$; $\{\{2,3\},\{3,4\}\}$; $\{\{2,3\},\{1\}\}$; $\{\{3,4\},\{1\}\}$; $\{\{2,3\},\{3,4\},\{1\}\}$. These eight sets are the only sets that are subsets of $U$, so if you’re studying just these sets, then you can use $U$ as your universal set. If $\{2,3\}$ is one of the sets that you’re studying, you need it to be a subset of $U$, so you need $2$ and $3$ to be elements of $U$: $U=\{2,3,...\}$.
• @Voyager: It sounds like you want $\Bbb N$, the set of natural numbers, to be your universal set, in which case it’s $2\in U$ or $\{2\}\subseteq U$: the two statements say the same thing. – Brian M. Scott Oct 31 '13 at 20:09
$U$ is the set of all elements in $U$, which includes the elements in $A$ and in $B$.
Hence, $U = \{1, 2, 3, 4\}$, and so, although $2 \in U$ and $3 \in U$, it is not the case that $\{2, 3\} \in U$, but rather, $\{2, 3\} \subset U$.