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Value of the argument (1 Viewer)
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Shadowdude
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Isn't it so each complex number can be represented uniquely in that form?
With that restriction, each complex number becomes unique. Or else you get things like -1 = cis(pi) = cis(-pi).
asianese
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There'd be an overlap. We no rike dat.
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Its just by the definition of the principal argument which serves the purpose of uniquely defining the angle within a convenient domain
Aysce
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Ah alright, cheers brah
SpiralFlex
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To clarify for those, the argument of a complex number can be angle outside the restriction of theta
However the principle argument must be strictly defined with the boundary you have stated sometimes denoted as Arg(z)
However the principle argument must be strictly defined with the boundary you have stated sometimes denoted as Arg(z)
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Shadowdude
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did you not read my post
Aysce
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I did haha but I was thinking along the lines of "the circle" even though yours is essentially what asianese mentioneddid you not read my post
dw bby i wont ignore u
Oh, so within -180 < @ <= 180?
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Another way to think of it is as a 'base' of a general argument. For example for some integer k
 + i\sin (\pi + 2k\pi))
We need to uniquely define the principal argument as the either the case where k = 0 or k = -1, not both at the same time
We need to uniquely define the principal argument as the either the case where k = 0 or k = -1, not both at the same time
SpiralFlex
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The principle argument is that, however the argument of a complex number can be greater than 180 or less than -180I did haha but I was thinking along the lines of "the circle" even though yours is essentially what asianese mentioned
dw bby i wont ignore u
Oh, so within -180 < @ <= 180?
There are technically infinite arguments for a complex number, however you're after the principle argument don't use the terms intechangably
Aysce
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Oh okay, I understandAnother way to think of it is as a 'base' of a general argument. For example for some integer k
We need to uniquely define the principal argument as the either the case where k = 0 or k = -1, not both at the same time
Alright, I'll keep that in mind.
seanieg89
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Reiterating what others have said in a different way:
Think of it as sort of like why we write
not
.
We make an arbitrary choice although there are two numbers that could be considered a square root of 1.
Analogously, there are infinitely many numbers that could be considered the "argument" of -1. One relatively convenient choice is pi, so we define that to be the principal argument.
Think of it as sort of like why we write
not
We make an arbitrary choice although there are two numbers that could be considered a square root of 1.
Analogously, there are infinitely many numbers that could be considered the "argument" of -1. One relatively convenient choice is pi, so we define that to be the principal argument.