Cauchy Sequence Characterized only By Directly Neighbouring Sequence Members
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Let $(a_n)$ be a sequence of real numbers, for which it holds, that
$$ lim_{n rightarrow infty} lvert a_{n+1}-a_n rvert = 0. $$ Does this already imply, that $(a_n)$ is a Cauchy sequence?
limits cauchy-sequences
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Let $(a_n)$ be a sequence of real numbers, for which it holds, that
$$ lim_{n rightarrow infty} lvert a_{n+1}-a_n rvert = 0. $$ Does this already imply, that $(a_n)$ is a Cauchy sequence?
limits cauchy-sequences
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add a comment |
$begingroup$
Let $(a_n)$ be a sequence of real numbers, for which it holds, that
$$ lim_{n rightarrow infty} lvert a_{n+1}-a_n rvert = 0. $$ Does this already imply, that $(a_n)$ is a Cauchy sequence?
limits cauchy-sequences
$endgroup$
Let $(a_n)$ be a sequence of real numbers, for which it holds, that
$$ lim_{n rightarrow infty} lvert a_{n+1}-a_n rvert = 0. $$ Does this already imply, that $(a_n)$ is a Cauchy sequence?
limits cauchy-sequences
limits cauchy-sequences
asked 3 hours ago
Joker123Joker123
632313
632313
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3 Answers
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Unfortunately not. Consider
$$a_n:=sum_{i=1}^nfrac{1}{i}.$$
We find $a_{n+1}-a_n=1/(n+1)to 0,$ but $lim_{ntoinfty}a_n=infty,$ hence ${a_n}_{ninmathbb{N}}$ is not a cauchy sequence.
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No. The sequence $a_n=sum_{k=1}^nfrac{1}{k}$ is a counterexample.
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Counterexample: $a_n = sqrt{n}$. Clearly this sequence does not converge. But
$$
a_{n+1} - a_{n} = sqrt{n+1} - sqrt{n} = frac{(sqrt{n+1} - sqrt{n})(sqrt{n+1} + sqrt{n})}{(sqrt{n+1} + sqrt{n})} = frac{1}{sqrt{n+1} + sqrt{n}} to 0 , .
$$
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3 Answers
3
active
oldest
votes
3 Answers
3
active
oldest
votes
active
oldest
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active
oldest
votes
$begingroup$
Unfortunately not. Consider
$$a_n:=sum_{i=1}^nfrac{1}{i}.$$
We find $a_{n+1}-a_n=1/(n+1)to 0,$ but $lim_{ntoinfty}a_n=infty,$ hence ${a_n}_{ninmathbb{N}}$ is not a cauchy sequence.
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add a comment |
$begingroup$
Unfortunately not. Consider
$$a_n:=sum_{i=1}^nfrac{1}{i}.$$
We find $a_{n+1}-a_n=1/(n+1)to 0,$ but $lim_{ntoinfty}a_n=infty,$ hence ${a_n}_{ninmathbb{N}}$ is not a cauchy sequence.
$endgroup$
add a comment |
$begingroup$
Unfortunately not. Consider
$$a_n:=sum_{i=1}^nfrac{1}{i}.$$
We find $a_{n+1}-a_n=1/(n+1)to 0,$ but $lim_{ntoinfty}a_n=infty,$ hence ${a_n}_{ninmathbb{N}}$ is not a cauchy sequence.
$endgroup$
Unfortunately not. Consider
$$a_n:=sum_{i=1}^nfrac{1}{i}.$$
We find $a_{n+1}-a_n=1/(n+1)to 0,$ but $lim_{ntoinfty}a_n=infty,$ hence ${a_n}_{ninmathbb{N}}$ is not a cauchy sequence.
edited 3 hours ago
HAMIDINE SOUMARE
2,208214
2,208214
answered 3 hours ago
MelodyMelody
1,27012
1,27012
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No. The sequence $a_n=sum_{k=1}^nfrac{1}{k}$ is a counterexample.
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No. The sequence $a_n=sum_{k=1}^nfrac{1}{k}$ is a counterexample.
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$begingroup$
No. The sequence $a_n=sum_{k=1}^nfrac{1}{k}$ is a counterexample.
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No. The sequence $a_n=sum_{k=1}^nfrac{1}{k}$ is a counterexample.
answered 3 hours ago
MarkMark
10.6k1622
10.6k1622
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$begingroup$
Counterexample: $a_n = sqrt{n}$. Clearly this sequence does not converge. But
$$
a_{n+1} - a_{n} = sqrt{n+1} - sqrt{n} = frac{(sqrt{n+1} - sqrt{n})(sqrt{n+1} + sqrt{n})}{(sqrt{n+1} + sqrt{n})} = frac{1}{sqrt{n+1} + sqrt{n}} to 0 , .
$$
$endgroup$
add a comment |
$begingroup$
Counterexample: $a_n = sqrt{n}$. Clearly this sequence does not converge. But
$$
a_{n+1} - a_{n} = sqrt{n+1} - sqrt{n} = frac{(sqrt{n+1} - sqrt{n})(sqrt{n+1} + sqrt{n})}{(sqrt{n+1} + sqrt{n})} = frac{1}{sqrt{n+1} + sqrt{n}} to 0 , .
$$
$endgroup$
add a comment |
$begingroup$
Counterexample: $a_n = sqrt{n}$. Clearly this sequence does not converge. But
$$
a_{n+1} - a_{n} = sqrt{n+1} - sqrt{n} = frac{(sqrt{n+1} - sqrt{n})(sqrt{n+1} + sqrt{n})}{(sqrt{n+1} + sqrt{n})} = frac{1}{sqrt{n+1} + sqrt{n}} to 0 , .
$$
$endgroup$
Counterexample: $a_n = sqrt{n}$. Clearly this sequence does not converge. But
$$
a_{n+1} - a_{n} = sqrt{n+1} - sqrt{n} = frac{(sqrt{n+1} - sqrt{n})(sqrt{n+1} + sqrt{n})}{(sqrt{n+1} + sqrt{n})} = frac{1}{sqrt{n+1} + sqrt{n}} to 0 , .
$$
answered 2 hours ago
Hans EnglerHans Engler
10.7k11836
10.7k11836
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