Determine whether or not $sum_{k=1}^inftyleft(frac k{k+1}right)^{k^2}$ converges. Announcing...
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Determine whether or not $sum_{k=1}^inftyleft(frac k{k+1}right)^{k^2}$ converges.
Announcing the arrival of Valued Associate #679: Cesar Manara
Planned maintenance scheduled April 17/18, 2019 at 00:00UTC (8:00pm US/Eastern)The Series( $sum_{1}^{+ infty}frac{1}{n! + n}$ convergence or divergence?Should I use the comparison test for the following series?Convergence for $sum _{n=1}^{infty }:frac{sqrt[4]{n^2-1}}{sqrt{n^4-1}}$Prove whether the series convergesDetermine whether or not each of the following series is convergentDetermine whether or not the following series are convergent $sum_{n=1}^infty nsin(frac{1}{n})$Determine whether or not the following series is convergent $sum_{n=1}^infty frac{1}{n^n}$For what values of $z$ does the series $sum_{n=0}^infty frac{1}{n^2 + z^2}$ converge?Determine whether this series converges or not.Determine whether the series converges or diverges.
$begingroup$
$$sum_{k=1}^inftyleft(frac k{k+1}right)^{k^2}$$
Determine whether or not the following series converge.
I am not sure what test to use. I am pretty sure I am unable to use ratio test. Maybe comparison or Kummer, or Raabe. However I am not sure how to start it.
sequences-and-series convergence
edited 6 mins ago
user21820
40.2k544163
asked 3 hours ago
MD3MD3
462
$endgroup$
add a comment |
$begingroup$
$$sum_{k=1}^inftyleft(frac k{k+1}right)^{k^2}$$
Determine whether or not the following series converge.
I am not sure what test to use. I am pretty sure I am unable to use ratio test. Maybe comparison or Kummer, or Raabe. However I am not sure how to start it.
sequences-and-series convergence
edited 6 mins ago
user21820
40.2k544163
asked 3 hours ago
MD3MD3
462
$endgroup$
$begingroup$
You have an exponent with $k$. Your instinct should be to remove it with the root test.
$endgroup$
– Simply Beautiful Art
3 hours ago
$begingroup$
Since its squared, do I take the k^2 root
$endgroup$
– MD3
3 hours ago
1
$begingroup$
Does the root test say you take the $k^2$-th root?
$endgroup$
– Simply Beautiful Art
3 hours ago
1
$begingroup$
For $kge 1$, we have$$left(frac{k}{k+1}right)^{k^2}le e^{-k/2}$$
$endgroup$
– Mark Viola
3 hours ago
add a comment |
$begingroup$
$$sum_{k=1}^inftyleft(frac k{k+1}right)^{k^2}$$
Determine whether or not the following series converge.
I am not sure what test to use. I am pretty sure I am unable to use ratio test. Maybe comparison or Kummer, or Raabe. However I am not sure how to start it.
sequences-and-series convergence
edited 6 mins ago
user21820
40.2k544163
asked 3 hours ago
MD3MD3
462
$endgroup$
$$sum_{k=1}^inftyleft(frac k{k+1}right)^{k^2}$$
Determine whether or not the following series converge.
I am not sure what test to use. I am pretty sure I am unable to use ratio test. Maybe comparison or Kummer, or Raabe. However I am not sure how to start it.
sequences-and-series convergence
sequences-and-series convergence
edited 6 mins ago
user21820
40.2k544163
asked 3 hours ago
MD3MD3
462
edited 6 mins ago
user21820
40.2k544163
asked 3 hours ago
MD3MD3
462
edited 6 mins ago
user21820
40.2k544163
edited 6 mins ago
user21820
40.2k544163
edited 6 mins ago
user21820
40.2k544163
40.2k544163
asked 3 hours ago
MD3MD3
462
asked 3 hours ago
MD3MD3
462
asked 3 hours ago
MD3MD3
462
462
$begingroup$
You have an exponent with $k$. Your instinct should be to remove it with the root test.
$endgroup$
– Simply Beautiful Art
3 hours ago
$begingroup$
Since its squared, do I take the k^2 root
$endgroup$
– MD3
3 hours ago
1
$begingroup$
Does the root test say you take the $k^2$-th root?
$endgroup$
– Simply Beautiful Art
3 hours ago
1
$begingroup$
For $kge 1$, we have$$left(frac{k}{k+1}right)^{k^2}le e^{-k/2}$$
$endgroup$
– Mark Viola
3 hours ago
add a comment |
$begingroup$
You have an exponent with $k$. Your instinct should be to remove it with the root test.
$endgroup$
– Simply Beautiful Art
3 hours ago
$begingroup$
Since its squared, do I take the k^2 root
$endgroup$
– MD3
3 hours ago
1
$begingroup$
Does the root test say you take the $k^2$-th root?
$endgroup$
– Simply Beautiful Art
3 hours ago
1
$begingroup$
For $kge 1$, we have$$left(frac{k}{k+1}right)^{k^2}le e^{-k/2}$$
$endgroup$
– Mark Viola
3 hours ago
$begingroup$
You have an exponent with $k$. Your instinct should be to remove it with the root test.
$endgroup$
– Simply Beautiful Art
3 hours ago
$begingroup$
You have an exponent with $k$. Your instinct should be to remove it with the root test.
$endgroup$
– Simply Beautiful Art
3 hours ago
$begingroup$
Since its squared, do I take the k^2 root
$endgroup$
– MD3
3 hours ago
$begingroup$
Since its squared, do I take the k^2 root
$endgroup$
– MD3
3 hours ago
1
1
$begingroup$
Does the root test say you take the $k^2$-th root?
$endgroup$
– Simply Beautiful Art
3 hours ago
$begingroup$
Does the root test say you take the $k^2$-th root?
$endgroup$
– Simply Beautiful Art
3 hours ago
1
1
$begingroup$
For $kge 1$, we have$$left(frac{k}{k+1}right)^{k^2}le e^{-k/2}$$
$endgroup$
– Mark Viola
3 hours ago
$begingroup$
For $kge 1$, we have$$left(frac{k}{k+1}right)^{k^2}le e^{-k/2}$$
$endgroup$
– Mark Viola
3 hours ago
add a comment |
3 Answers
3
active
oldest
votes
$begingroup$
By Root test, $$limsup_{n to infty} sqrt[n]{left(frac{n}{n+1}right)^{n^2}}=limsup_{n to infty} {left(frac{n}{n+1}right)^{n}}=limsup_{n to infty} {left({1+frac{1}{n}}right)^{-n}}=frac{1}{e}<1$$
So your series converges!
answered 3 hours ago
Chinnapparaj RChinnapparaj R
6,54021029
$endgroup$
$begingroup$
How did you know to take the supremum
$endgroup$
– MD3
3 hours ago
1
$begingroup$
See the wiki link!
$endgroup$
– Chinnapparaj R
3 hours ago
add a comment |
$begingroup$
Hint: $$left( frac{k}{k+1} right)^k sim e^{-1} $$
answered 3 hours ago
Robert IsraelRobert Israel
331k23221478
$endgroup$
add a comment |
$begingroup$
$$a_k=left(frac k{k+1}right)^{k^2}implies log(a_k)=k^2 logleft(frac k{k+1}right)$$
$$log(a_{k+1})-log(a_k)=(k+1)^2 log left(frac{k+1}{k+2}right)-k^2 log left(frac{k}{k+1}right)$$ Using Taylor expansions for large $k$
$$log(a_{k+1})-log(a_k)=-1+frac{1}{3 k^2}+Oleft(frac{1}{k^3}right)$$
$$frac {a_{k+1}}{a_k}=e^{log(a_{k+1})-log(a_k)}=frac 1 e left(1+frac{1}{3 k^2}+Oleft(frac{1}{k^3}right)right)to frac 1 e $$
answered 1 hour ago
Claude LeiboviciClaude Leibovici
126k1158135
$endgroup$
add a comment |
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3 Answers
3
active
oldest
votes
3 Answers
3
active
oldest
votes
active
oldest
votes
active
oldest
votes
$begingroup$
By Root test, $$limsup_{n to infty} sqrt[n]{left(frac{n}{n+1}right)^{n^2}}=limsup_{n to infty} {left(frac{n}{n+1}right)^{n}}=limsup_{n to infty} {left({1+frac{1}{n}}right)^{-n}}=frac{1}{e}<1$$
So your series converges!
answered 3 hours ago
Chinnapparaj RChinnapparaj R
6,54021029
$endgroup$
$begingroup$
How did you know to take the supremum
$endgroup$
– MD3
3 hours ago
1
$begingroup$
See the wiki link!
$endgroup$
– Chinnapparaj R
3 hours ago
add a comment |
$begingroup$
By Root test, $$limsup_{n to infty} sqrt[n]{left(frac{n}{n+1}right)^{n^2}}=limsup_{n to infty} {left(frac{n}{n+1}right)^{n}}=limsup_{n to infty} {left({1+frac{1}{n}}right)^{-n}}=frac{1}{e}<1$$
So your series converges!
answered 3 hours ago
Chinnapparaj RChinnapparaj R
6,54021029
$endgroup$
$begingroup$
How did you know to take the supremum
$endgroup$
– MD3
3 hours ago
1
$begingroup$
See the wiki link!
$endgroup$
– Chinnapparaj R
3 hours ago
add a comment |
$begingroup$
By Root test, $$limsup_{n to infty} sqrt[n]{left(frac{n}{n+1}right)^{n^2}}=limsup_{n to infty} {left(frac{n}{n+1}right)^{n}}=limsup_{n to infty} {left({1+frac{1}{n}}right)^{-n}}=frac{1}{e}<1$$
So your series converges!
answered 3 hours ago
Chinnapparaj RChinnapparaj R
6,54021029
$endgroup$
By Root test, $$limsup_{n to infty} sqrt[n]{left(frac{n}{n+1}right)^{n^2}}=limsup_{n to infty} {left(frac{n}{n+1}right)^{n}}=limsup_{n to infty} {left({1+frac{1}{n}}right)^{-n}}=frac{1}{e}<1$$
So your series converges!
answered 3 hours ago
Chinnapparaj RChinnapparaj R
6,54021029
edited 3 hours ago
answered 3 hours ago
Chinnapparaj RChinnapparaj R
6,54021029
answered 3 hours ago
Chinnapparaj RChinnapparaj R
6,54021029
answered 3 hours ago
Chinnapparaj RChinnapparaj R
6,54021029
6,54021029
$begingroup$
How did you know to take the supremum
$endgroup$
– MD3
3 hours ago
1
$begingroup$
See the wiki link!
$endgroup$
– Chinnapparaj R
3 hours ago
add a comment |
$begingroup$
How did you know to take the supremum
$endgroup$
– MD3
3 hours ago
1
$begingroup$
See the wiki link!
$endgroup$
– Chinnapparaj R
3 hours ago
$begingroup$
How did you know to take the supremum
$endgroup$
– MD3
3 hours ago
$begingroup$
How did you know to take the supremum
$endgroup$
– MD3
3 hours ago
1
1
$begingroup$
See the wiki link!
$endgroup$
– Chinnapparaj R
3 hours ago
$begingroup$
See the wiki link!
$endgroup$
– Chinnapparaj R
3 hours ago
add a comment |
$begingroup$
Hint: $$left( frac{k}{k+1} right)^k sim e^{-1} $$
answered 3 hours ago
Robert IsraelRobert Israel
331k23221478
$endgroup$
add a comment |
$begingroup$
Hint: $$left( frac{k}{k+1} right)^k sim e^{-1} $$
answered 3 hours ago
Robert IsraelRobert Israel
331k23221478
$endgroup$
add a comment |
$begingroup$
Hint: $$left( frac{k}{k+1} right)^k sim e^{-1} $$
answered 3 hours ago
Robert IsraelRobert Israel
331k23221478
$endgroup$
Hint: $$left( frac{k}{k+1} right)^k sim e^{-1} $$
answered 3 hours ago
Robert IsraelRobert Israel
331k23221478
answered 3 hours ago
Robert IsraelRobert Israel
331k23221478
answered 3 hours ago
Robert IsraelRobert Israel
331k23221478
answered 3 hours ago
Robert IsraelRobert Israel
331k23221478
331k23221478
add a comment |
add a comment |
$begingroup$
$$a_k=left(frac k{k+1}right)^{k^2}implies log(a_k)=k^2 logleft(frac k{k+1}right)$$
$$log(a_{k+1})-log(a_k)=(k+1)^2 log left(frac{k+1}{k+2}right)-k^2 log left(frac{k}{k+1}right)$$ Using Taylor expansions for large $k$
$$log(a_{k+1})-log(a_k)=-1+frac{1}{3 k^2}+Oleft(frac{1}{k^3}right)$$
$$frac {a_{k+1}}{a_k}=e^{log(a_{k+1})-log(a_k)}=frac 1 e left(1+frac{1}{3 k^2}+Oleft(frac{1}{k^3}right)right)to frac 1 e $$
answered 1 hour ago
Claude LeiboviciClaude Leibovici
126k1158135
$endgroup$
add a comment |
$begingroup$
$$a_k=left(frac k{k+1}right)^{k^2}implies log(a_k)=k^2 logleft(frac k{k+1}right)$$
$$log(a_{k+1})-log(a_k)=(k+1)^2 log left(frac{k+1}{k+2}right)-k^2 log left(frac{k}{k+1}right)$$ Using Taylor expansions for large $k$
$$log(a_{k+1})-log(a_k)=-1+frac{1}{3 k^2}+Oleft(frac{1}{k^3}right)$$
$$frac {a_{k+1}}{a_k}=e^{log(a_{k+1})-log(a_k)}=frac 1 e left(1+frac{1}{3 k^2}+Oleft(frac{1}{k^3}right)right)to frac 1 e $$
answered 1 hour ago
Claude LeiboviciClaude Leibovici
126k1158135
$endgroup$
add a comment |
$begingroup$
$$a_k=left(frac k{k+1}right)^{k^2}implies log(a_k)=k^2 logleft(frac k{k+1}right)$$
$$log(a_{k+1})-log(a_k)=(k+1)^2 log left(frac{k+1}{k+2}right)-k^2 log left(frac{k}{k+1}right)$$ Using Taylor expansions for large $k$
$$log(a_{k+1})-log(a_k)=-1+frac{1}{3 k^2}+Oleft(frac{1}{k^3}right)$$
$$frac {a_{k+1}}{a_k}=e^{log(a_{k+1})-log(a_k)}=frac 1 e left(1+frac{1}{3 k^2}+Oleft(frac{1}{k^3}right)right)to frac 1 e $$
answered 1 hour ago
Claude LeiboviciClaude Leibovici
126k1158135
$endgroup$
$$a_k=left(frac k{k+1}right)^{k^2}implies log(a_k)=k^2 logleft(frac k{k+1}right)$$
$$log(a_{k+1})-log(a_k)=(k+1)^2 log left(frac{k+1}{k+2}right)-k^2 log left(frac{k}{k+1}right)$$ Using Taylor expansions for large $k$
$$log(a_{k+1})-log(a_k)=-1+frac{1}{3 k^2}+Oleft(frac{1}{k^3}right)$$
$$frac {a_{k+1}}{a_k}=e^{log(a_{k+1})-log(a_k)}=frac 1 e left(1+frac{1}{3 k^2}+Oleft(frac{1}{k^3}right)right)to frac 1 e $$
answered 1 hour ago
Claude LeiboviciClaude Leibovici
126k1158135
answered 1 hour ago
Claude LeiboviciClaude Leibovici
126k1158135
answered 1 hour ago
Claude LeiboviciClaude Leibovici
126k1158135
answered 1 hour ago
Claude LeiboviciClaude Leibovici
126k1158135
126k1158135
add a comment |
add a comment |
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$begingroup$
You have an exponent with $k$. Your instinct should be to remove it with the root test.
$endgroup$
– Simply Beautiful Art
3 hours ago
$begingroup$
Since its squared, do I take the k^2 root
$endgroup$
– MD3
3 hours ago
1
$begingroup$
Does the root test say you take the $k^2$-th root?
$endgroup$
– Simply Beautiful Art
3 hours ago
1
$begingroup$
For $kge 1$, we have$$left(frac{k}{k+1}right)^{k^2}le e^{-k/2}$$
$endgroup$
– Mark Viola
3 hours ago