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Doing algebra with infinite series is very risky
March 8, 2023 at 4:47 pm
I had a look earlier at another thread recently posted here in this section, in which polymath exposed a paradox when doing math with infinite series a certain way.
I'll reiterate this here:
x = 1 + 2 + 4 + 8 + 16 + ...
2x = 2 + 4 + 8 + 16 + 32 + ...
x = 1 + 2x
x - 2x = 1
-x = 1
x = -1
But x is supposed to be a divergent infinite series, so the sum can't amount to a finite number (such as -1)! What gives then?
I've been reading what other people online had to say about this, and many of them say the issue lies with one of the steps involving an "infinity minus infinity" which is indeterminate (in much the same way as 0/0 is indeterminate).
Namely, this step:
x - 2x = 1
I don't think the issue is with that. The answer is only indeterminate when we're dealing with infinity in an abstract sense. But here, we know what numbers are involved exactly in the infinite series, and so there is no issue with subtracting one well-defined infinite series from another.
The problem, in my opinion, is with the second step. We have 2x = 2 + 4 + 8 + 16 + 32 + ...
But 2x could also be 2x = x + x = 1 + 1 + 2 + 2 + 4 + 4 + 8 + 8 + 16 + 16 + ...
If we then move to the next step, it's not certain anymore that x = 1 + 2x.
The lesson to learn here? Doing algebra with infinite series is tricky as fuck. Don't take it for granted that doing so will lead you to a very intuitive answer.
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RE: Doing algebra with infinite series is very risky
March 8, 2023 at 4:49 pm
Regular algebra makes me cry...I can't even with this.
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RE: Doing algebra with infinite series is very risky
March 8, 2023 at 6:14 pm
I choose to avoid the risk.
Boru
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RE: Doing algebra with infinite series is very risky
March 8, 2023 at 8:38 pm
It's not clear what algebraic ring is used here, or that it's consistent throughout. Subtraction being undefined is obvious, but it's not clear the addition is well defined, either.
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RE: Doing algebra with infinite series is very risky
March 8, 2023 at 8:52 pm
(This post was last modified: March 8, 2023 at 8:57 pm by polymath257.)
Well, the problem is, precisely, that the series is not convergent. So, it literally has no value. So the problem is in the very first step.
In those situations where it *is* convergent, the algebra works and the sum *is* -1. The 2-adics are an example of this.
So....make sure an expression has a value before doing algebra with it.
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RE: Doing algebra with infinite series is very risky
March 8, 2023 at 8:56 pm
(March 8, 2023 at 4:47 pm)GrandizerII Wrote: I had a look earlier at another thread recently posted here in this section, in which polymath exposed a paradox when doing math with infinite series a certain way.
I'll reiterate this here:
x = 1 + 2 + 4 + 8 + 16 + ...
2x = 2 + 4 + 8 + 16 + 32 + ...
x = 1 + 2x
x - 2x = 1
-x = 1
x = -1
But x is supposed to be a divergent infinite series, so the sum can't amount to a finite number (such as -1)! What gives then?
I've been reading what other people online had to say about this, and many of them say the issue lies with one of the steps involving an "infinity minus infinity" which is indeterminate (in much the same way as 0/0 is indeterminate).
Namely, this step:
x - 2x = 1
I don't think the issue is with that. The answer is only indeterminate when we're dealing with infinity in an abstract sense. But here, we know what numbers are involved exactly in the infinite series, and so there is no issue with subtracting one well-defined infinite series from another.
The problem, in my opinion, is with the second step. We have 2x = 2 + 4 + 8 + 16 + 32 + ...
But 2x could also be 2x = x + x = 1 + 1 + 2 + 2 + 4 + 4 + 8 + 8 + 16 + 16 + ...
If we then move to the next step, it's not certain anymore that x = 1 + 2x.
The lesson to learn here? Doing algebra with infinite series is tricky as fuck. Don't take it for granted that doing so will lead you to a very intuitive answer.
If you have a convergent series, it is easy enough to show that both operations are legitimate and give the same answer.
So, the sum(a_n +b_n )=sum(a_n) + sum(b_n) *provided the series converge*. If they do not converge, they have no value (unless you choose a different notion of convergence--in which case, you need to prove that the algebra works as expected).
And yes, there *are* other ways of defining infinite sums. The problem is that they may or may not respect various aspects of algebra (for example, preserving inequalities, or giving the same result if you put 0's into the sum).
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RE: Doing algebra with infinite series is very risky
March 8, 2023 at 9:32 pm
(March 8, 2023 at 4:49 pm)arewethereyet Wrote: Regular algebra makes me cry...I can't even with this.
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RE: Doing algebra with infinite series is very risky
March 8, 2023 at 9:57 pm
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RE: Doing algebra with infinite series is very risky
July 21, 2023 at 2:54 pm
(This post was last modified: July 21, 2023 at 2:55 pm by Loaded dice.)
(March 8, 2023 at 4:47 pm)GrandizerII Wrote: Doing algebra with infinite series is tricky
It's wrong. All the basic rules you know about manipulating and rearranging the terms of a finite sum, are no longer true in general when it comes to infinite series.
The first thing to do with an infinite series is to study its convergence. If it is convergent, in some cases it's possible to rearrange its terms without losing convergence (e.g. https://en.wikipedia.org/wiki/Riemann_series_theorem)
It's useful to remember that the entire topic of infinite series is serious undergraduate math, if you're not familiar with basic real analysis and sequences just forget them for now.
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RE: Doing algebra with infinite series is very risky
July 21, 2023 at 3:10 pm
(July 21, 2023 at 2:54 pm)Loaded dice Wrote: (March 8, 2023 at 4:47 pm)GrandizerII Wrote: Doing algebra with infinite series is tricky
It's wrong. All the basic rules you know about manipulating and rearranging the terms of a finite sum, are no longer true in general when it comes to infinite series.
The first thing to do with an infinite series is to study its convergence. If it is convergent, in some cases it's possible to rearrange its terms without losing convergence (e.g. https://en.wikipedia.org/wiki/Riemann_series_theorem)
It's useful to remember that the entire topic of infinite series is serious undergraduate math, if you're not familiar with basic real analysis and sequences just forget them for now.
Yeah, my analysis in the OP was wrong. Since the series is not convergent, the problem starts from the very beginning (as polymath stated).
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