Exercise:A topological space $(X,\tau)$ is said to be $T_1$-space if every singleton set $\{x\}$ is closed in $(X,\tau)$. Show that precisely two of the following nine topological spaces are $T_1$-spaces:
v) $\tau$ consists of $\mathbb{R},\emptyset$ and every interval $(-n,n)$ for any positive integers.
I think that $X\setminus(-n,n)=(-\infty,-n]\cup[n,\infty)$ hence the compliment of each set is not a singleton then no singleton is closed.
Question:
Is my argument valid? Can I get singletons in the topology(using set operations)?
Thanks in advance!
Best Answer
Your argument is correct: you have described all closed sets (other than $\mathbb{R}$ and $\emptyset$) and none of them is a singleton. Therefore, no singleton is closed here.