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#1 2007-11-05 02:16:45
- Hunt
- Member
- Registered: 2007-09-29
- Posts: 9
Limit proof
Consider the expression of q ( a fraction ) as a function of n :
V_2 , V_1 , and D_c are constants. n is a positive integer that varies from 1 till infinity.
It is required to prove that :
I cant think of any possible way to prove that. However , it is clear that q_n tends towards zero . The expression above then makes sense. Any suggestion is appreciated.
Thanks
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#2 2007-11-05 03:17:02
- anons
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Re: Limit proof
How can you sum a constant?
#3 2007-11-05 03:50:35
- Hunt
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- Registered: 2007-09-29
- Posts: 9
Re: Limit proof
I didnt include the details of summation of v_1 because it doesnt mattter. We are taking n equal V_1's , meaning the correct expression should be :
So if this helps ,
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#4 2007-11-05 04:34:55
- Ricky
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- Registered: 2005-12-04
- Posts: 3,791
Re: Limit proof
Use the fact that if a sequence q_n converges, then limit as n->infinity p(n) = limit as n->infinity p(n+1). It should just be algebra from there. Very messy algebra, but algebra none the less.
"In the real world, this would be a problem. But in mathematics, we can just define a place where this problem doesn't exist. So we'll go ahead and do that now..."
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#5 2007-11-05 09:39:18
- Hunt
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- Registered: 2007-09-29
- Posts: 9
Re: Limit proof
Thanks Ricky. Before I attempted to do that messy algebra , I tried L.H. rule one more time for the Ln(q_n). I got the right answer. I must have been making some careless mistake somewhere ...
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