Sequences, subsequences (convergent, non-convergent)

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Hi guys,
I am not sure if my understanding of subsequence is right. For example I have sequence {x} from n=1 to infinity. Subsequence is when
A) I chose for example every third term of that sequence so from sequence 1,2,3,4,5,6,7,... I choose subsequence 1,4,7...?
B) Or subsequence is when I chose for example only first five terms so from sequence 1,2,3,4,5,6,7... I choose subsequence 1,2,3,4,5...?
I have this problem because {x} from n=1 to infinity is non-convergent sequence and I want to know if subsequence of non-convergent sequence is also always non-convergent like in A) or we can make convergent subsequence from non-convergent sequence B).
BY THE WAY SEQUENCE 1,2,3,4,5 IS CONVERGENT, RIGHT? :D
 
on Phys.org
Subsequences should be infinite. Choosing every third term is fine, just choosing the first 5 does not work.
control said:
and I want to know if subsequence of that sequence is also always non-convergent
What do you want to show? The existence of at least one non-convergent subsequence, or that all subsequences do not converge?

Convergence is a meaningless concept for finite sets (they are not sequences).
 
I probably do not understand what is subsequence. Can you explain it in words and examples, please (not in formulas)?
 
And I want to show if non-convergent sequence has always non-convergent subsequence.
 
What is unclear? A subsequence is a sequence where you can skip elements of the parent sequence, but you have to keep infinitely many elements. You can take every third element, or every prime numbered element, or every power of 2, or whatever you want, but it has to be a sequence - it cannot end somewhere.
 
control said:
I probably do not understand what is subsequence. Can you explain it in words and examples, please (not in formulas)?
Here is an example: ##\{a_n\}_{n=1}^\infty## defined by ##a_n = (-1)^{n+1}## = {1, -1, 1, -1, ...}
This sequence is divergent, but it has two convergent subsequences. One convergent subsequence is ##\{a_0, a_2, a_4, \dots, a_{2n}, \dots\}##. All elements of this subsequence are 1, so this subsequence is obviously convergent.
The sequence of my example has another convergent subsequence, which I leave to you to find.
 
Thanks guys, it is clear for me now.
Mark44: All elements of second convergent subsequence are -1. Thanks for good example.
 
I have one more question. I am curious, where in practice are subsequences used, and how can I formally write that elements of my subsequence are for example every third element of my sequence?
 
If your original sequence has elements an, then the subsequence "every third" has elements sn=a3n. As examples, s1=a3 and s2=a6.
control said:
And I want to show if non-convergent sequence has always non-convergent subsequence.
It is unclear what that means. A specific subsequence either converges or not, there is nothing the "always" could apply to.
 
  • #10
I meant if there exists some sequence which is non-convergent and we can make such subsequence from it which would be convergent. But from our discussion and my knowledge it is impossible to find such sequence, or am I wrong?
 
  • #11
If you have a divergent sequence, there are always divergent subsequences (and you should be able to find examples easily). There can be convergent subsequences (Mark44 gave an example in post 6), but there don't have to be, it depends on the sequence.

If you have a convergent sequence, all subsequences are convergent.
 
  • #12
control said:
Hi guys,
I am not sure if my understanding of subsequence is right. For example I have sequence {x} from n=1 to infinity. Subsequence is when
A) I chose for example every third term of that sequence so from sequence 1,2,3,4,5,6,7,... I choose subsequence 1,4,7...?
B) Or subsequence is when I chose for example only first five terms so from sequence 1,2,3,4,5,6,7... I choose subsequence 1,2,3,4,5...?
I have this problem because {x} from n=1 to infinity is non-convergent sequence and I want to know if subsequence of non-convergent sequence is also always non-convergent like in A) or we can make convergent subsequence from non-convergent sequence B).
BY THE WAY SEQUENCE 1,2,3,4,5 IS CONVERGENT, RIGHT? :D
An additional condition here is that subsequences { ##a_{j_k} ##} ##\subset ## {## a_j ##} must preserve the order in the original, i.e., if for indices n,m if ## n<m ## in the original , then ##j_n < j_m##. , e.g., you cannot swap the order of the 300th, 500th terms of the original for a subsequence in the subsequence..
 
  • #13
control said:
I have one more question. I am curious, where in practice are subsequences used, and how can I formally write that elements of my subsequence are for example every third element of my sequence?
As in this case, to prove continuity in certain spaces, where the condition ## (a_k \rightarrow a ) \rightarrow (f(a_k) \rightarrow f(a) )## is equivalent to f being continuous.(Continuity implies Sequential Continuity but not viceversa)
 

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