Closed interval

Definition

We define a closed interval, denoted $[a,b]$, in $\mathbb{R}$ as follows:

• $[a,b]:\eq\left\{x\in\mathbb{R}\ \vert\ a\le x\le b\right\}$

We adopt the following conventions:

• if $a\eq b$ then $[a,b]$ is the singleton $\{a\}\subseteq\mathbb{R}$.^{[Note 1]}
• if $b< a$ then $[a,b]:\eq\emptyset$

A closed interval in $\mathbb{R}$ is actually an instance of a closed ball in $\mathbb{R}$ based at $\frac{a+b}{2}$ and of radius $\frac{b-a}{2}$ - see claim 2 below.

A closed interval is called a "closed interval" because it is actually closed. See Claim 1 below

Generalisations

Proof of claims

Claim 1: The closed interval is closed

Recall a set is closed if its complement is open. The complement is $(-\infty,a)\cup(b,+\infty)$

Notes

1. Jump up ↑ Effectively this is $[a,a]$ or $[b,b]$. It is easy to see that $\{x\in\mathbb{R}\ \vert\ a\le x\le a\}$ is just $x\eq a$ itself.

References