Difference between revisions of "Neighborhoods in 𝐑"
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<h1 id="toc0">The Real Number Line</h1> | <h1 id="toc0">The Real Number Line</h1> | ||
<p>One way to represent the real numbers <math>\mathbb{R}</math> is on the real number line as depicted below.</p> | <p>One way to represent the real numbers <math>\mathbb{R}</math> is on the real number line as depicted below.</p> | ||
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+ | [[File:Real number line for Algebra book.svg|frame|center|Real number line]] | ||
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<p>We will now state the important geometric representation of the absolute value with respect to the real number line.</p> | <p>We will now state the important geometric representation of the absolute value with respect to the real number line.</p> | ||
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<td><strong>Definition:</strong> Let <math>a</math> be a real number and let <math>\varepsilon > 0</math>. The <math>\varepsilon</math>-neighbourhood of the number <math>a</math> is the set denoted <math>V_{\varepsilon} (a) := \{ x \in \mathbb{R} : \mid x - a \mid < \varepsilon \}</math>. Alternatively we can define <math>V_{\varepsilon}(a) := \{x \in \mathbb{R} : a - \varepsilon < x < a + \varepsilon \}</math>. | <td><strong>Definition:</strong> Let <math>a</math> be a real number and let <math>\varepsilon > 0</math>. The <math>\varepsilon</math>-neighbourhood of the number <math>a</math> is the set denoted <math>V_{\varepsilon} (a) := \{ x \in \mathbb{R} : \mid x - a \mid < \varepsilon \}</math>. Alternatively we can define <math>V_{\varepsilon}(a) := \{x \in \mathbb{R} : a - \varepsilon < x < a + \varepsilon \}</math>. | ||
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+ | [[File:Epsilon Umgebung.svg|frame|center|<math>\varepsilon</math>-neighbourhood around <math>a</math> (<math>V_{\varepsilon}(a)</math>) expressed on the real number line]] | ||
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<li><strong>Proof of Theorem 1:</strong> Suppose that for some <math>x</math>, <math>\forall \varepsilon > 0</math>, <math>\mid x - a \mid < \varepsilon</math>. We know that then <math>\mid x - a \mid = 0</math> if and only if <math>x - a = 0</math> and therefore <math>x = a</math>. <math>\blacksquare</math></li> | <li><strong>Proof of Theorem 1:</strong> Suppose that for some <math>x</math>, <math>\forall \varepsilon > 0</math>, <math>\mid x - a \mid < \varepsilon</math>. We know that then <math>\mid x - a \mid = 0</math> if and only if <math>x - a = 0</math> and therefore <math>x = a</math>. <math>\blacksquare</math></li> | ||
</ul> | </ul> | ||
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+ | == Licensing == | ||
+ | Content obtained and/or adapted from: | ||
+ | * [http://mathonline.wikidot.com/the-real-line-and-the-epsilon-neighbourhood-of-a-real-number The Real Line and The Epsilon Neighbourhood of a Real Number, mathonline.wikidot.com] under a CC BY-SA license |
Latest revision as of 15:02, 6 November 2021
The Real Number Line
One way to represent the real numbers is on the real number line as depicted below.
We will now state the important geometric representation of the absolute value with respect to the real number line.
Definition: If and are real numbers, then we say that the distance from to the origin is the absolute value of , . We say that the distance between and is the absolute value of their difference, namely . |
For example consider the numbers and . There is a distance of in between these numbers because .
Epsilon Neighbourhood of a Real Number
Definition: Let be a real number and let . The -neighbourhood of the number is the set denoted . Alternatively we can define .
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For example, consider the point , and let . Then .
We will now look at a simple theorem regarding the epsilon-neighbourhood of a real number.
Theorem 1: Let be a real number. If , then . |
- Proof of Theorem 1: Suppose that for some , , . We know that then if and only if and therefore .
Licensing
Content obtained and/or adapted from:
- The Real Line and The Epsilon Neighbourhood of a Real Number, mathonline.wikidot.com under a CC BY-SA license