Is this considered a closed expression for pi?

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The equation ln(-1)/i=pi raises questions about whether it constitutes a closed expression for pi, particularly since it involves imaginary numbers. While it does not use limits or integrals, the discussion highlights that the presence of 'i' may not significantly affect its classification. The relationship to Euler's Formula and the identity e^(iπ) = -1 suggests that this expression is valid, but the complex logarithm introduces infinite branches, complicating the assertion that pi is strictly equal to this expression. The term "closed expression" lacks a precise definition, and reducing pi to a complex logarithm may not simplify the concept. Ultimately, the nature of complex numbers allows for unconventional interpretations that challenge traditional views on mathematical identities.
polaris12
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ln(-1)/i=pi

this equation does not use limits or integrals, as you can see, but it does involve imaginary numbers. Does this make it an open expression, or does the fact that it uses i not matter?
 
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This is almost the definition of logarithm for complex numbers. You define something to be pi, then call it a closed form expression? Is pi itself a closed-form expression of pi?

By the way, ln(-1)/i=pi is completely equivalent to the statement that "the angle between two parts of a straight line is pi", which is again almost the original definition of pi.
 
It is an identity. The use of 'i' really not matter. It's just a constant. And it follows right from the Euler's Formula: e^ti = cos t + i sin t which follows from Taylor expansion for e, sin and cos. With t=pi you have e^(pi i) = -1, so ln(-1)/i=pi
 
I think I see. thank you.
 
Doesn't the complex logarithm has an infinite number of branches?

So e^{i\pi}=-1 can be extended to e^{i(\pi+2k\pi)}=-1 for k any integer.

This means \frac{ln(-1)}{i}=\pi+2k\pi. I'm not sure if we can strictly say that pi is equal to that expression, when an infinite number of values are equal to it as well.
 
But.. We can say that -1 = e^i(pi+2kpi) , can't we..? So, i think that "problem" doesn't invalidate the identity. It's just that we are talking about complex numbers and extending functions can show us some "strange" things if we look at it like we look to the reals. Remember the famous sum: 1+2+3+... = -1/12. It is an identity, but if we look at that as a real sum it makes no sense.

(Sorry if i can't make myself clear enough sometimes. My english is really not good. ;p)
 
The word "closed expression" doesn't have a precise definition.

Usually, a closed form helps simplify a difficult expression. I would argue that reducing an irrational number to an expression of complex logarithms isn't simplifying anything.
 

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