3.1 Neighborhoods and Open Sets 139Definition 3.1.3 A set U ~ JR is open if Vx E U, ::le > 0 3 N,:(x) ~ U.
In words, a set U is open if and only if each of its points has a neighborhood
contained entirely in U.u x u
~ I )Figure 3.2Theorem 3.1.4 Let a, b E R The intervals (a, b), (a, +oo), ( -oo, a), and
( -oo, +oo) are open sets.Proof. (a) Consider the interval (a, b).
Case 1 (a 2: b): In this case, (a,b) = 0. Since ~x E 0, it is true that
Vx E 0 , ::le> 0 3 N 0 (x) ~ 0. Thus, 0 is open, and so (a,b) is open.
Case 2 (a < b): Let x E (a, b). Then a < x < b. Let c = min { x - a, b - x}.
Then N 0 (x) ~ (a, b). Thus, (a, b) is open.
Ni(x)
,.--"-----1
a xFigure 3.3b(b) Finish the proof by considering each of the other types of intervals
given. (Exercise 1.) •Corollary 3.1.5 Every €-neighborhood N 0 (x) is open. •The following theorem is the basis for establishing that many other sets
are open as well. It is considered fundamental.Theorem 3.1.6 (Open Set Theorem)(a) 0 and JR are open.(b) The union of any collection of open se ts is open.(c) The intersection of any finite number of open sets is open.Proof. (a) In proving Case 1 of Theorem 3.1.4 we proved that 0 is open.
To see that JR is open, merely observe that Vx E JR, ::le> 0 3 N 0 (x) ~ RIMl9