Limit

mathkeep · 2009-08-05 07:01:27

here is a question of limit...

...where n tends to infinity
actually my limit is coming out to be 0...i thought in this way...
write the limit as :

so the further ratios will make 1 smaller and smaller....thus making the fraction almost zero...
but i want a rigorous proof..

juriguen · 2009-08-05 07:23:51

Hi!

I think your proof is rigorous enough. However, here you have a similar demo, based on Stirling's formula (approximates n!)
http://planetmath.org/encyclopedia/AsymptoticBoundsForFactorial.html

Jose

Riad Zaidan · 2009-08-05 07:39:49

Hi mathkeep ,
The solution as I think is as follows:
n!/(n^n)=(n/n)((n-1)/n)((n-2)/n)...(2/n)(1/n)
but n-1<n means that ((n-1)/n)<1
n-2<n means that ((n-2)/n)<1
n-3<n means that ((n-3)/n)<1
.
.
.
( 2/n)<1
therefore ((n-1)/n)((n-2)/n)...(2/n)<1
so (n/n)((n-1)/n)((n-2)/n)...(2/n)<1
(n/n)((n-1)/n)((n-2)/n)...(2/n)(1/n)<1(1/n) so
(n/n)((n-1)/n)((n-2)/n)...(2/n)(1/n)<(1/n)

0 <n!/(n^n)<(1/n)
but lim 0 =0 and lim (1/n) = 0 both as n tends to ∞
and by squezing theorem we have lim (n!/(n^n))=0 as n tends to ∞ .
So the required limit is 0
W.B.W
Riad Zaidan

mathkeep · 2009-08-05 08:48:41

hi Riad Zaidan!
thanks for the proof..got convinced from that easily..
n juriguen thanks for the link too

Ricky · 2009-08-05 12:34:13

I think a much easier proof would be to just note that

Note that this is just using the fact that:

And then making this swap for each n, n-1, n-2, ... except for 1.

This shows that

soroban · 2009-08-05 17:32:14

. .

.

Ricky · 2009-08-05 18:44:33

Unfortunately soroban, the question was to prove that it converges to 0, not just to show convergence.

mathkeep · 2009-08-05 23:36:20

Ricky wrote:

I think a much easier proof would be to just note that
Note that this is just using the fact that:
And then making this swap for each n, n-1, n-2, ... except for 1.
This shows that

yeah a nice proof..thanks Ricky..

mathkeep · 2009-08-05 23:41:52

Ricky wrote:

Unfortunately soroban, the question was to prove that it converges to 0, not just to show convergence.

hmm..well Sorobon ...Ricky is right..anyways...that may help me in some other question :D

soroban · 2009-08-06 02:54:50

.
Absolutely right, Ricky.

Thank you for the heads-up.
.

riad zaidan · 2009-08-06 03:08:03

Hi soroban
The question is the convergence of a sequence not of a series , and the convergence of a sequence does not mean that the corresponding series is convergent.
As an example the sequence 1/n converges to 0 but the series ∑(1/n) diverges.
w.b.w
Riad Zaidan

Sarah12 · 2009-08-06 08:18:56

Wow That is A Big Problem.:|

johnkv · 2009-08-07 19:17:52

fine go ahead

Math Is Fun Forum

#1 2009-08-05 07:01:27

Limit

#2 2009-08-05 07:23:51

Re: Limit

#3 2009-08-05 07:39:49

Re: Limit

#4 2009-08-05 08:48:41

Re: Limit

#5 2009-08-05 12:34:13

Re: Limit

#6 2009-08-05 17:32:14

Re: Limit

#7 2009-08-05 18:44:33

Re: Limit

#8 2009-08-05 23:36:20

Re: Limit

#9 2009-08-05 23:41:52

Re: Limit

#10 2009-08-06 02:54:50

Re: Limit

#11 2009-08-06 03:08:03

Re: Limit

#12 2009-08-06 08:18:56

Re: Limit

#13 2009-08-07 19:17:52

Re: Limit

Board footer