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This is for my Combinatorial Algorithms class. I kind of have an idea as to why a constant would equal e as but I'm a bit confused when I have the statement that 2 and (1 + 3/n)^n are theta of each other. This is pretty much saying that 2 and e^3 are theta of each other? Is it because they are both constants that we can say this? Or are we analyzing these two as n -> infinity?

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closed as off topic by Mat, Magnus, Jan Dvorak, Marty, rob mayoff Jun 5 '13 at 5:33

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Hi Ceelos, sounds like an interesting question but you might be looking for math.stackexchange.com. –  Marty Jun 5 '13 at 5:26
@MartyWallace indeed! I posted it there too, wanted to see if either side would help! Thank you! –  Ceelos Jun 5 '13 at 5:33

1 Answer 1

This seems like a math problem, not a programming problem. Also, your post is confusing. It's not clear what you are asking.

However, you might find it useful to know that e, the base of natural logarithms, can be defined this way:

e = limn→∞ (1 + 1/n)n

(See MathWorld for many other ways to define e not relevant to your question.) Therefore, for the equation in your title, as n→∞, θ→2/e.

You can generalize the definition to powers of e like this:

ex = limn→∞ (1 + x/n)n

(Check it with Wolfram Alpha.) Therefore, in the equation I infer from the text of your post, as n→∞, θ→2/e3.

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