Difference between revisions of "Sequences:Tails"

From Department of Mathematics at UTSA
Jump to navigation Jump to search
 
(2 intermediate revisions by the same user not shown)
Line 8: Line 8:
 
<p>Recall that for a sequence <math>(a_n)_{n=1}^{\infty}</math> that converges to the real number <math>L</math> then <math>\lim_{n \to \infty} a_n = L</math>, that is <math>\forall \varepsilon > 0</math> there exists a natural number <math>n \in \mathbb{N}</math> such that if <math>n \geq N</math> then <math>\mid a_n - L \mid < \varepsilon</math>. For any given positive <math>\varepsilon</math> we can consider the <math>n</math>-tail of the sequence <math>(a_n)</math> to be the subsequence of <math>(a_n)</math> such that all terms in this tail are within an <math>\varepsilon</math>-distance from our limit <math>L</math>. The diagram below illustrates this concept.</p>
 
<p>Recall that for a sequence <math>(a_n)_{n=1}^{\infty}</math> that converges to the real number <math>L</math> then <math>\lim_{n \to \infty} a_n = L</math>, that is <math>\forall \varepsilon > 0</math> there exists a natural number <math>n \in \mathbb{N}</math> such that if <math>n \geq N</math> then <math>\mid a_n - L \mid < \varepsilon</math>. For any given positive <math>\varepsilon</math> we can consider the <math>n</math>-tail of the sequence <math>(a_n)</math> to be the subsequence of <math>(a_n)</math> such that all terms in this tail are within an <math>\varepsilon</math>-distance from our limit <math>L</math>. The diagram below illustrates this concept.</p>
  
[http://mathonline.wdfiles.com/local--files/the-tail-of-a-sequence-of-real-numbers/Screen%20Shot%202014-10-13%20at%202.27.28%20AM.png The Tail of a Sequence of Real Numbers] from mathonline.wikidot.com
+
<div class="center" style="width: auto; margin-left: auto; margin-right: auto;">[http://mathonline.wdfiles.com/local--files/the-tail-of-a-sequence-of-real-numbers/Screen%20Shot%202014-10-13%20at%202.27.28%20AM.png '''''The Tail of a Sequence of Real Numbers''''']</div>
  
 
<p>The following theorem tells us that the m-tail of a sequence must also converge to the limit <math>L</math> provided the parent sequence <math>(a_n)</math> converges to <math>L</math>.</p>
 
<p>The following theorem tells us that the m-tail of a sequence must also converge to the limit <math>L</math> provided the parent sequence <math>(a_n)</math> converges to <math>L</math>.</p>

Latest revision as of 10:52, 20 October 2021

The Tail of a Sequence of Real Numbers

We will now look at an important aspect of a sequence known as the tail of a sequence.

Definition: Let be a sequence of real numbers. Then for any , the -Tail of is a the subsequence .

Recall that for a sequence that converges to the real number then , that is there exists a natural number such that if then . For any given positive we can consider the -tail of the sequence to be the subsequence of such that all terms in this tail are within an -distance from our limit . The diagram below illustrates this concept.

The following theorem tells us that the m-tail of a sequence must also converge to the limit provided the parent sequence converges to .

Theorem 1: Let be a sequence of real numbers. Then converges to if and only if for any the -tail of , call it converges to .

Resources