Difference between revisions of "Triangle Inequality"

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(Created page with "== Licensing == Content obtained and/or adapted from: * [http://mathonline.wikidot.com/the-triangle-inequality The Triangle Inequality, mathonline.wikidot.com] under a CC BY-...")
 
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The triangle inequality is a very important geometric and algebraic property that we will use frequently in the future.
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'''Theorem 1 (Triangle Inequality):''' Let <math>a</math> and <math>b</math> be real numbers. Then <math>\mid a + b \mid \leq \mid a \mid + \mid b \mid</math>.
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:*'''Proof of Theorem:''' For <math>a</math> and <math>b</math> as real numbers we have that <math>-\mid a \mid \leq a \leq \mid a \mid</math> and <math>-\mid b \mid \leq b \leq \mid b \mid</math>. If we add these inequalities together we get that <math>-\mid a \mid - \mid b \mid \leq a + b \leq \mid a \mid + \mid b \mid</math> or rather <math>-\left ( \mid a \mid + \mid b \mid \right ) \leq a + b \leq \left ( \mid a \mid + \mid b \mid \right )</math> which is equivalent to saying that <math>\mid a + b \mid \leq \mid a \mid + \mid b \mid</math>. <math>\blacksquare</math>
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There are also some other important results similar to the triangle inequality that are important to mention.
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'''Corollary 1:''' If <math>a</math> and <math>b</math> are real numbers then <math>\mid \mid a \mid - \mid b \mid \mid \leq \mid a - b \mid</math>.
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:*'''Proof of Corollary 1:''' We first write <math>a = a - b + b</math> and therefore applying the triangle inequality we get that <math>\mid a \mid = \mid (a - b) + b \mid \leq \mid a - b \mid + \mid b \mid</math> and therefore <math>\mid a \mid \leq \mid a - b \mid + \mid b \mid</math>. Subtracting <math>\mid b \mid</math> from both sides we get that <math>\mid a \mid - \mid b \mid \leq \mid a - b \mid</math>.
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:*Now we write <math>b = b - a + a</math> and therefore applying the triangle inequality we get that <math>\mid b \mid = \mid (b - a) + a \mid \leq \mid b - a \mid + \mid a \mid</math> and therefore <math>\mid b \mid \leq \mid b - a \mid + \mid a \mid</math> and subtracting <math>\mid a \mid</math> from both sides we get that <math>\mid b \mid - \mid a \mid \leq \mid b - a \mid</math> which is equivalent to <math>\mid a \mid - \mid b \mid \geq - \mid b - a \mid</math>.
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:*Therefore <math>\mid \mid a \mid - \mid b \mid \mid \leq \mid a + b \mid</math>. <math>\blacksquare</math>
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'''Corollary 2:''' If <math>a</math> and <math>b</math> are real numbers then <math>\mid a - b \mid \leq \mid a \mid + \mid b \mid</math>.
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:*'''Proof of Corollary 2:''' By the triangle inequality we get that <math>\mid a + b \mid \leq \mid a \mid + \mid b \mid</math> and so then <math>\mid a + (-b) \mid \leq \mid a \mid + \mid -b \mid = \mid a \mid + \mid b \mid</math>. Therefore <math>\mid a - b \mid \leq \mid a \mid + \mid b \mid</math>. <math>\blacksquare</math>
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'''Corollary 3:''' If <math>a_1, a_2, ..., a_n \in \mathbb{R}</math> then <math>\mid a_1 + a_2 + ... + a_n \mid \leq \mid a_1 \mid + \mid a_2 \mid + ... + \mid a_n \mid</math>.</blockquote>
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:*'''Proof of Corollary 3:''' We note that <math>\mid a_1 + a_2 + ... + a_n \mid = \mid a_1 + (a_2 + ... + a_n) \mid \leq \mid a_1 \mid + \mid a_2 + ... + a_{n} \mid</math> by the triangle inequality. Applying the triangle inequality multiple times we eventually get that <math>\mid a_1 + a_2 + ... + a_n \mid \leq \mid a_1 \mid + \mid a_2 \mid + ... + \mid a_n \mid</math>. <math>\blacksquare</math>
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''A more formal proof of Corollary 3 can be carried out by Mathematical Induction.''
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== Licensing ==  
 
== Licensing ==  
 
Content obtained and/or adapted from:
 
Content obtained and/or adapted from:
 
* [http://mathonline.wikidot.com/the-triangle-inequality The Triangle Inequality, mathonline.wikidot.com] under a CC BY-SA license
 
* [http://mathonline.wikidot.com/the-triangle-inequality The Triangle Inequality, mathonline.wikidot.com] under a CC BY-SA license

Revision as of 15:02, 27 November 2021

The triangle inequality is a very important geometric and algebraic property that we will use frequently in the future.

Theorem 1 (Triangle Inequality): Let and be real numbers. Then .


  • Proof of Theorem: For and as real numbers we have that and . If we add these inequalities together we get that or rather which is equivalent to saying that .


There are also some other important results similar to the triangle inequality that are important to mention.


Corollary 1: If and are real numbers then .


  • Proof of Corollary 1: We first write and therefore applying the triangle inequality we get that and therefore . Subtracting from both sides we get that .


  • Now we write and therefore applying the triangle inequality we get that and therefore and subtracting from both sides we get that which is equivalent to .


  • Therefore .


Corollary 2: If and are real numbers then .


  • Proof of Corollary 2: By the triangle inequality we get that and so then . Therefore .


Corollary 3: If then .


  • Proof of Corollary 3: We note that by the triangle inequality. Applying the triangle inequality multiple times we eventually get that .


A more formal proof of Corollary 3 can be carried out by Mathematical Induction.


Licensing

Content obtained and/or adapted from: