Evaluate $ lim limits_{n to infty }frac{1}{n}sqrt[n]{n^5+(n+1)^5+…+(2n)^5}$
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$ lim limits_{n to infty }frac{1}{n}sqrt[n]{n^5+(n+1)^5+...+(2n)^5}$
I have no idea. Please give me some hint.
real-analysis limits limits-without-lhopital
edited Nov 17 at 11:34
Paramanand Singh
48.5k555156
asked Nov 17 at 10:35
matematiccc
1125
add a comment |
up vote
-2
down vote
favorite
$ lim limits_{n to infty }frac{1}{n}sqrt[n]{n^5+(n+1)^5+...+(2n)^5}$
I have no idea. Please give me some hint.
real-analysis limits limits-without-lhopital
edited Nov 17 at 11:34
Paramanand Singh
48.5k555156
asked Nov 17 at 10:35
matematiccc
1125
add a comment |
up vote
-2
down vote
favorite
up vote
-2
down vote
favorite
$ lim limits_{n to infty }frac{1}{n}sqrt[n]{n^5+(n+1)^5+...+(2n)^5}$
I have no idea. Please give me some hint.
real-analysis limits limits-without-lhopital
edited Nov 17 at 11:34
Paramanand Singh
48.5k555156
asked Nov 17 at 10:35
matematiccc
1125
$ lim limits_{n to infty }frac{1}{n}sqrt[n]{n^5+(n+1)^5+...+(2n)^5}$
I have no idea. Please give me some hint.
real-analysis limits limits-without-lhopital
real-analysis limits limits-without-lhopital
edited Nov 17 at 11:34
Paramanand Singh
48.5k555156
asked Nov 17 at 10:35
matematiccc
1125
edited Nov 17 at 11:34
Paramanand Singh
48.5k555156
asked Nov 17 at 10:35
matematiccc
1125
edited Nov 17 at 11:34
Paramanand Singh
48.5k555156
edited Nov 17 at 11:34
Paramanand Singh
48.5k555156
edited Nov 17 at 11:34
Paramanand Singh
48.5k555156
48.5k555156
asked Nov 17 at 10:35
matematiccc
1125
asked Nov 17 at 10:35
matematiccc
1125
asked Nov 17 at 10:35
matematiccc
1125
1125
add a comment |
add a comment |
3 Answers
3
active
oldest
votes
up vote
3
down vote
accepted
Hint: $$0leq n^5+(n+1)^5+dots+(2n)^5leq (n+1)cdot2n^5leq2ncdot (2n)^5=(2n)^6$$
answered Nov 17 at 10:41
b00n heT
10.2k12134
Thanks! And limit of (n^6)^(1/n) is 1?
– matematiccc
Nov 17 at 10:55
yes, it's 1 :).
– b00n heT
Nov 17 at 10:57
$1leq n^5+...$
– user90369
Nov 17 at 18:20
add a comment |
up vote
0
down vote
- Use
$$
a^x = exp( x cdot ln(a)) forall x in mathbb{R} forall a > 0.
$$
Then use that
$$
lim_{n to infty} e^{f(n)} = exp(lim_{n to infty} f(n)),
$$
since $x mapsto e^x$ ist continuous on $mathbb{R}$.Lastly notice that the limit of a product is the product of the limits when both limits don't approach 0.
Alternative
Knowing (looking up...) $sum_{k = 0}^{n} k^5 = frac{n^2 (n + 1)^2 (2 n^2 + 2 n - 1)}{12}$ one may derive
$$
sum_{k = n}^{2n} k^5 = frac{n^2 (n + 1) (42 n^3 + 24 n^2 + n - 1)}{4}
le frac{n^2 cdot n cdot 42n^3}{4} le 11 n^6,
$$
where the latter inequalities will be true for large $n$, and proceed in a similar fashion from there
answered Nov 17 at 10:47
Viktor Glombik
489321
add a comment |
up vote
0
down vote
Hint :
$0 lt (n^6)^{1/n} lt((n+1)n^5)^{1/n} lt $
$(n^5+(n+1)^5....+(2n)^{5})^{1/n} lt$
$((n+1)(2n)^5)^{1/n}lt ((2n)^6)^{1/n}.$
The lower and upper bound limits exist, hence
$(n^5+(n+1)^5+..(2n)^5)^{1/n} lt M,$
where $M>0$, real.
The limit $n rightarrow infty $
$(1/n)(n^5+(n+1)^5+...(2n)^n)^{1/n}$
is?
answered Nov 17 at 10:57
Peter Szilas
10.4k2720
add a comment |
3 Answers
3
active
oldest
votes
3 Answers
3
active
oldest
votes
active
oldest
votes
active
oldest
votes
up vote
3
down vote
accepted
Hint: $$0leq n^5+(n+1)^5+dots+(2n)^5leq (n+1)cdot2n^5leq2ncdot (2n)^5=(2n)^6$$
answered Nov 17 at 10:41
b00n heT
10.2k12134
Thanks! And limit of (n^6)^(1/n) is 1?
– matematiccc
Nov 17 at 10:55
yes, it's 1 :).
– b00n heT
Nov 17 at 10:57
$1leq n^5+...$
– user90369
Nov 17 at 18:20
add a comment |
up vote
3
down vote
accepted
Hint: $$0leq n^5+(n+1)^5+dots+(2n)^5leq (n+1)cdot2n^5leq2ncdot (2n)^5=(2n)^6$$
answered Nov 17 at 10:41
b00n heT
10.2k12134
Thanks! And limit of (n^6)^(1/n) is 1?
– matematiccc
Nov 17 at 10:55
yes, it's 1 :).
– b00n heT
Nov 17 at 10:57
$1leq n^5+...$
– user90369
Nov 17 at 18:20
add a comment |
up vote
3
down vote
accepted
up vote
3
down vote
accepted
Hint: $$0leq n^5+(n+1)^5+dots+(2n)^5leq (n+1)cdot2n^5leq2ncdot (2n)^5=(2n)^6$$
answered Nov 17 at 10:41
b00n heT
10.2k12134
Hint: $$0leq n^5+(n+1)^5+dots+(2n)^5leq (n+1)cdot2n^5leq2ncdot (2n)^5=(2n)^6$$
answered Nov 17 at 10:41
b00n heT
10.2k12134
answered Nov 17 at 10:41
b00n heT
10.2k12134
answered Nov 17 at 10:41
b00n heT
10.2k12134
answered Nov 17 at 10:41
b00n heT
10.2k12134
10.2k12134
Thanks! And limit of (n^6)^(1/n) is 1?
– matematiccc
Nov 17 at 10:55
yes, it's 1 :).
– b00n heT
Nov 17 at 10:57
$1leq n^5+...$
– user90369
Nov 17 at 18:20
add a comment |
Thanks! And limit of (n^6)^(1/n) is 1?
– matematiccc
Nov 17 at 10:55
yes, it's 1 :).
– b00n heT
Nov 17 at 10:57
$1leq n^5+...$
– user90369
Nov 17 at 18:20
Thanks! And limit of (n^6)^(1/n) is 1?
– matematiccc
Nov 17 at 10:55
Thanks! And limit of (n^6)^(1/n) is 1?
– matematiccc
Nov 17 at 10:55
yes, it's 1 :).
– b00n heT
Nov 17 at 10:57
yes, it's 1 :).
– b00n heT
Nov 17 at 10:57
$1leq n^5+...$
– user90369
Nov 17 at 18:20
$1leq n^5+...$
– user90369
Nov 17 at 18:20
add a comment |
up vote
0
down vote
- Use
$$
a^x = exp( x cdot ln(a)) forall x in mathbb{R} forall a > 0.
$$
Then use that
$$
lim_{n to infty} e^{f(n)} = exp(lim_{n to infty} f(n)),
$$
since $x mapsto e^x$ ist continuous on $mathbb{R}$.Lastly notice that the limit of a product is the product of the limits when both limits don't approach 0.
Alternative
Knowing (looking up...) $sum_{k = 0}^{n} k^5 = frac{n^2 (n + 1)^2 (2 n^2 + 2 n - 1)}{12}$ one may derive
$$
sum_{k = n}^{2n} k^5 = frac{n^2 (n + 1) (42 n^3 + 24 n^2 + n - 1)}{4}
le frac{n^2 cdot n cdot 42n^3}{4} le 11 n^6,
$$
where the latter inequalities will be true for large $n$, and proceed in a similar fashion from there
answered Nov 17 at 10:47
Viktor Glombik
489321
add a comment |
up vote
0
down vote
- Use
$$
a^x = exp( x cdot ln(a)) forall x in mathbb{R} forall a > 0.
$$
Then use that
$$
lim_{n to infty} e^{f(n)} = exp(lim_{n to infty} f(n)),
$$
since $x mapsto e^x$ ist continuous on $mathbb{R}$.Lastly notice that the limit of a product is the product of the limits when both limits don't approach 0.
Alternative
Knowing (looking up...) $sum_{k = 0}^{n} k^5 = frac{n^2 (n + 1)^2 (2 n^2 + 2 n - 1)}{12}$ one may derive
$$
sum_{k = n}^{2n} k^5 = frac{n^2 (n + 1) (42 n^3 + 24 n^2 + n - 1)}{4}
le frac{n^2 cdot n cdot 42n^3}{4} le 11 n^6,
$$
where the latter inequalities will be true for large $n$, and proceed in a similar fashion from there
answered Nov 17 at 10:47
Viktor Glombik
489321
add a comment |
up vote
0
down vote
up vote
0
down vote
- Use
$$
a^x = exp( x cdot ln(a)) forall x in mathbb{R} forall a > 0.
$$
Then use that
$$
lim_{n to infty} e^{f(n)} = exp(lim_{n to infty} f(n)),
$$
since $x mapsto e^x$ ist continuous on $mathbb{R}$.Lastly notice that the limit of a product is the product of the limits when both limits don't approach 0.
Alternative
Knowing (looking up...) $sum_{k = 0}^{n} k^5 = frac{n^2 (n + 1)^2 (2 n^2 + 2 n - 1)}{12}$ one may derive
$$
sum_{k = n}^{2n} k^5 = frac{n^2 (n + 1) (42 n^3 + 24 n^2 + n - 1)}{4}
le frac{n^2 cdot n cdot 42n^3}{4} le 11 n^6,
$$
where the latter inequalities will be true for large $n$, and proceed in a similar fashion from there
answered Nov 17 at 10:47
Viktor Glombik
489321
- Use
$$
a^x = exp( x cdot ln(a)) forall x in mathbb{R} forall a > 0.
$$
Then use that
$$
lim_{n to infty} e^{f(n)} = exp(lim_{n to infty} f(n)),
$$
since $x mapsto e^x$ ist continuous on $mathbb{R}$.Lastly notice that the limit of a product is the product of the limits when both limits don't approach 0.
Alternative
Knowing (looking up...) $sum_{k = 0}^{n} k^5 = frac{n^2 (n + 1)^2 (2 n^2 + 2 n - 1)}{12}$ one may derive
$$
sum_{k = n}^{2n} k^5 = frac{n^2 (n + 1) (42 n^3 + 24 n^2 + n - 1)}{4}
le frac{n^2 cdot n cdot 42n^3}{4} le 11 n^6,
$$
where the latter inequalities will be true for large $n$, and proceed in a similar fashion from there
answered Nov 17 at 10:47
Viktor Glombik
489321
edited Nov 17 at 10:53
answered Nov 17 at 10:47
Viktor Glombik
489321
answered Nov 17 at 10:47
Viktor Glombik
489321
answered Nov 17 at 10:47
Viktor Glombik
489321
489321
add a comment |
add a comment |
up vote
0
down vote
Hint :
$0 lt (n^6)^{1/n} lt((n+1)n^5)^{1/n} lt $
$(n^5+(n+1)^5....+(2n)^{5})^{1/n} lt$
$((n+1)(2n)^5)^{1/n}lt ((2n)^6)^{1/n}.$
The lower and upper bound limits exist, hence
$(n^5+(n+1)^5+..(2n)^5)^{1/n} lt M,$
where $M>0$, real.
The limit $n rightarrow infty $
$(1/n)(n^5+(n+1)^5+...(2n)^n)^{1/n}$
is?
answered Nov 17 at 10:57
Peter Szilas
10.4k2720
add a comment |
up vote
0
down vote
Hint :
$0 lt (n^6)^{1/n} lt((n+1)n^5)^{1/n} lt $
$(n^5+(n+1)^5....+(2n)^{5})^{1/n} lt$
$((n+1)(2n)^5)^{1/n}lt ((2n)^6)^{1/n}.$
The lower and upper bound limits exist, hence
$(n^5+(n+1)^5+..(2n)^5)^{1/n} lt M,$
where $M>0$, real.
The limit $n rightarrow infty $
$(1/n)(n^5+(n+1)^5+...(2n)^n)^{1/n}$
is?
answered Nov 17 at 10:57
Peter Szilas
10.4k2720
add a comment |
up vote
0
down vote
up vote
0
down vote
Hint :
$0 lt (n^6)^{1/n} lt((n+1)n^5)^{1/n} lt $
$(n^5+(n+1)^5....+(2n)^{5})^{1/n} lt$
$((n+1)(2n)^5)^{1/n}lt ((2n)^6)^{1/n}.$
The lower and upper bound limits exist, hence
$(n^5+(n+1)^5+..(2n)^5)^{1/n} lt M,$
where $M>0$, real.
The limit $n rightarrow infty $
$(1/n)(n^5+(n+1)^5+...(2n)^n)^{1/n}$
is?
answered Nov 17 at 10:57
Peter Szilas
10.4k2720
Hint :
$0 lt (n^6)^{1/n} lt((n+1)n^5)^{1/n} lt $
$(n^5+(n+1)^5....+(2n)^{5})^{1/n} lt$
$((n+1)(2n)^5)^{1/n}lt ((2n)^6)^{1/n}.$
The lower and upper bound limits exist, hence
$(n^5+(n+1)^5+..(2n)^5)^{1/n} lt M,$
where $M>0$, real.
The limit $n rightarrow infty $
$(1/n)(n^5+(n+1)^5+...(2n)^n)^{1/n}$
is?
answered Nov 17 at 10:57
Peter Szilas
10.4k2720
edited Nov 17 at 12:26
answered Nov 17 at 10:57
Peter Szilas
10.4k2720
answered Nov 17 at 10:57
Peter Szilas
10.4k2720
answered Nov 17 at 10:57
Peter Szilas
10.4k2720
10.4k2720
add a comment |
add a comment |
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