Real Numbers: Difference between revisions

Latest revision as of 16:47, 24 September 2025

Each number set contains the number set before it: $/ a$

N: Natural Numbers - ie all whole numbers.
- For example: 0,1,2... onwards
Z: Integers - ie all N plus negative integers.
- For example -2,-1,0,1,2...
D: Decimals - ie all Z plus fractions that can be written with a finite number of decimals.
- For example $\frac{11}{4} = 2.75$
Q: Rationals - ie all D, plus those that do recur (but may never terminate.
- For example $\frac{1}{3}$ ( = 0.333333) or $\frac{143}{999}$ ( = 0.143143143)
R: Reals - ie all Q plus the irrationals, which are decimals that neither terminate nor recur.
- For example $π, \sqrt{2}, 3 \sqrt{3}, - \sqrt{2}, - \frac{\sqrt{5}}{2}$ , etc

N is a subset of Z is a subset of D is a subset of Q is a subset of R

Intervals are ways of specifying the range of possible values for x:


Interval Type	Interval	Values for the real number x
Closed	$x \in [a, b]$ $x \in [a, b [$ $x \in] a, b]$ $x \in] a, b [$	$a \leq x \leq b$ $a \leq x < b$ $a < x \leq b$ $a < x < b$
Open	$x \in [a, + \infty]$ $x \in] a, + \infty [$ $x \in] - \infty, a]$ $x \in] - \infty, a [$	$x \geq a$ $x > a$ $x \leq a$ $x < a$

The interval $[a, a]$ is equal to $[a]$ .

The interval $[b, a]$ where $b > a$ is empty.

The intersection of two intervals is always an interval or the empty set.

If the intersection of two intervals is not empty, then the union of them is an interval.

If the real number $a$ is :

@@ Line 31: / Line 31: @@
 |<math> x \geq a</math><br><math>x > a</math><br><math>x \leq a</math><br><math>x < a</math>
 |}
-The interval <math>[a,a]</math>is equal to <math>[a]</math>.
+The interval <math>[a,a]</math> is equal to <math>[a]</math>.
 The interval <math>[b,a]</math> where <math>b > a</math> is empty.