Induction (1 Viewer)

Lukybear

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Use Induction to prove statement true for all positive integers n



Hence show that



does not converge to a limit
 

shaon0

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Use Induction to prove statement true for all positive integers n



Hence show that



does not converge to a limit
S(n): 1/n =< (1+...+1/n)-ln(n)

Base case is trivial

Assume, 1/k =< (1+...+1/k)-ln(k)

Let n=k+1:
LHS=(1+...+1/k+(1/(k+1)))-ln(k+1)
=1/k+ln(k)+1/(k+1)-ln(k+1)
=(1/k+1/(k+1))+ln(k/(k+1))
>=1/(k+1)
Additionally, 1/k, 1/(k+1) and ln(k/(k+1)) <1 for k<1
Thus, LHS=<1

1/n =< (1+...+1/n)-ln(n)
ln(n) =< (1+...+1/(n-1))
n =< e^(1+...+1/(n-1))
e1.e2...e(1/(n-1)) >= n
lim n-> inf LHS = lim n->inf RHS
e1.e2...=inf
Hence, doesn't converge

I think you can also use this to prove that the harmonic sum doesn't converge.
Also, idk if my solution's correct as i haven't written anything down so don't rage if my solution's incorrect.
 

Lukybear

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hmmm... question is inequality? How did you sub into equn to make LHS =

Also, perhaps more importantly, how did you get final greater then 1/(k+1)

+

how did you also get result of <=1, since k>=1
 
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shaon0

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hmmm... question is inequality? How did you sub into equn to make LHS =

Also, perhaps more importantly, how did you get final greater then 1/(k+1)

+

how did you also get result of <=1, since k>=1
1) I get confused with left and right very often. Sorry it should be RHS.
2) Do you agree that...1/k and ln(k/(k+1)) are positive for all k: k>=1? This can be verified by using the derivative and proving the functions are positive for k>=1 but decreasing.
So, 1/k+ln(k/(k+1)) >= 0 [Adding 1/(k+1) to both sides]
1/k+1/(k+1)+ln(k/(k+1)) >= 1/(k+1)
RHS >= 1/(k+1)
3) Since 1/k, 1/(k+1) and ln(k/(k+1)) are positive but decreasing functions for k>=1. Use derivatives and show that f'<0 for k>=1 where f is any of the above functions. And for the functions above i'm pretty sure max/turning pt occurs at k=1 and the functions are decreasing after k=1.
Note k=1 is base case...hopefully.
 
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Trebla

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First we need to derive a useful result.




Now to proceed to the induction problem:





 

Trebla

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NOTE:



It is NOT positive, because



When you apply a logarithm to a number between 0 and 1, the output is negative.

As for the second part of the question:



(Not too sure about the argument for this one though)
 
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Lukybear

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First we need to derive a useful result.




Now to proceed to the induction problem:





That is qutie skilled Trebla. How did you manage to get this? What thought processes did you use?

Also, not quite sure about ur first assumption. I do get how the area is between 2 rectangles. But why is then the area between
1/k+1 and 1/k

Also, for the second part of Q. I do not get how you get 1/ne^... for middle of inequality. e^-lnn is e^1/n?
 

Lukybear

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1) I get confused with left and right very often. Sorry it should be RHS.
2) Do you agree that...1/k and ln(k/(k+1)) are positive for all k: k>=1? This can be verified by using the derivative and proving the functions are positive for k>=1 but decreasing.
So, 1/k+ln(k/(k+1)) >= 0 [Adding 1/(k+1) to both sides]
1/k+1/(k+1)+ln(k/(k+1)) >= 1/(k+1)
RHS >= 1/(k+1)
3) Since 1/k, 1/(k+1) and ln(k/(k+1)) are positive but decreasing functions for k>=1. Use derivatives and show that f'<0 for k>=1 where f is any of the above functions. And for the functions above i'm pretty sure max/turning pt occurs at k=1 and the functions are decreasing after k=1.
Note k=1 is base case...hopefully.
but ln(k/k+1) is not positive
 

shaon0

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but ln(k/k+1) is not positive
Yeah realised that after writing that up. But i don't think it matters.
ln(k+1)>ln(k)
1/k+ln(k+1)>ln(k)
1/k>ln(k/(k+1))
1/k-ln(k/(k+1))>0
1/k+ln(1+(1/k))>0
 

Trebla

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Also, not quite sure about ur first assumption. I do get how the area is between 2 rectangles. But why is then the area between
1/k+1 and 1/k

Also, for the second part of Q. I do not get how you get 1/ne^... for middle of inequality. e^-lnn is e^1/n?
If you draw a diagram of the hyperbola y = 1/x for k < x < k + 1, both the lower and upper rectangle have a length of 1. The lower rectangle (which understates the true area) has a width of 1/(k + 1) which is the y-value corresponding to x = k + 1 and the upper rectangle (which overstates the true area) has a width of 1/k. Hence the area of the lower rectangle is 1/(k+1) and the area of the upper rectangle is 1/k.

This result was needed because we need to somehow prove that 1/k + ln(k/(k+1)) was non-negative and 1/(k + 1) + ln(k/(k+1)) was non-positive. Since ln (k/(k+1)) is actually negative, it's not that simple. Playing around with the inequality that is required to complete the proof sort of helps and knowing how to prove the limit result for e (which involves taking this result into further rearrangement) sort of led to that path.

Also,
e-ln n = eln (1/n) = 1/n
 
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Lukybear

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Thxs so much for help guys. Very much appreciated.
 

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