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Some remarks on complex numbers 
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#55
Feb2314, 08:25 PM

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#56
Feb2314, 09:06 PM

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Sorry, I got carried away by homeomorphic's "notgodgiven" interpretations. 


#57
Feb2314, 09:15 PM

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Notations seem to possess qualities of "protocol".
Real numbers seem to possess some "material", "downhome" quality. 


#58
Feb2314, 09:45 PM

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If you wanted something a little bit more like complex numbers, that gets a little trickier. In general, what you would get in higher dimensions are called Clifford algebras, which also include complex numbers and quaternions as special cases. These are combinations of different square roots of 1 (in the most basic versionthere are more general formulations). However, Clifford algebras have a lot of quirks that make them not quite like complex numbers. For one thing, they are not division algebras, so things don't always have inverses anymore. So you can't divide by guys in the Clifford algebra, like you can with complex numbers. Also, the geometric interpretation of how they operate isn't so straight forward in general. You can still use them to describe rotations in higher dimensions, though. The square roots of 1 in the Clifford algebra act by reflection across a coordinate hyperplanea funny "spinorial" reflection, in which you have to reflect 4 times to get back to where you started because although the square is 1, which acts on the space by doing nothing, the Clifford algebra secretly knows that something is different until you square it once more and get back to 1. It's a bit of a long story. Another thing about Clifford algebras is that, while you could think of them as a higher dimensional space because they are just vector spaces with some kind of extra multiplication, it's not as natural to think of them that way as it is with complex numbers and the 2dimensional plane. You have to throw in all the products of the square roots of 1 which boost the dimension up way higher than the space they act on (2^n for ndimensional space), and algebraically, it's a lot more messy. Very different from the complex plane which acts on itself. 


#59
Feb2314, 10:14 PM

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Par day m'wah. 


#60
Feb2414, 11:54 AM

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OK, let me collect my thoughts again..."Where did I leave them, in the refrigerator again?"
This relates back to my first post, "sqrt(1) enters the picture when we attempt to factor a sum." It would seem to me that trying to get rid of "i", after it appears, such as by "substituting" a two by two matrix for "i", is absolutely TOO trivial a thing to do to purge "i" from the analysis. The two by two matrix is just a "wolf in sheep's clothing"; an isomorphism as revealed above. We've got to stop its introduction BEFORE it appears, so lets start thinking of removing the factoring of sums(polynomials) from the analysis. I know...then how will we find out the zero crossings and those precious eigenvalues. I'm thinkin' that Dr. Wootters isn't merely performing an isomorphism on QM, but it is more like a reformulation avoiding "i" by not ever seeing it in the first place. This could be done by avoiding factoring polynomials, but rightfully so...I could not really understand Dr. Wooters' lecture. So how about avoiding the factoring of polynomials as a way to avoid "i"? Maybe subtractions factoring into a conjugate real pair would be OK, but real conjugate pairs might need to be avoided too, for consistency. Could analysis even be performed without this factoring? Could reality not even know how to factor, and a model that does factor, is expecting too much from Mother Nature or some other deity? Is the real meaning of "i", simply that "No FISHING IS ALLOWED"... I mean "no factoring is allowed"; dagnab keyboard. 


#61
Feb2414, 12:53 PM

P: 221

And might not the removal of factoring from the picture be
similar to the "Pythagorean Dream" of: "NO IRRATIONAL NUMBERS" After all, cannot every number with a finite number of digits be represented as a ratio of integers? I'm thinking that the removal of irrationals via the removal of factoring might yield a peculiar integer mechanics of its own; just sayin'. 


#62
Feb2414, 01:31 PM

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This is getting a bit tiresome. Have you learned anything in any of the posts of this thread? Are you even interested in learning? These forums are for learning, if you are not here to learn then this thread is pointless.



#63
Feb2414, 01:45 PM

P: 1,191

If you don't allow factoring of some polynomials, you can't let i in because i is going to factor everything. But you have to start somewhere.
If you allow factoring of a certain polynomial, you get what's called its splitting field, which is everything you need to factor that polynomial, but no more. You have to start with something, though, so it's not just the splitting field, it's a splitting field over some base field like the real numbers. The splitting field of x^2 + 1 over the real numbers is the complex numbers. Splitting fields are nothing special, though. You can always get them by throwing in enough stuff, rather than requiring a polynomial to factor. So, you can start with the rational numbers and throw in square roots of 2 (and all resulting multiples, etc.) or you can require that x^22 factors. Either way, you get the same result. So, no, there's nothing particularly special about allowing or not allowing things to factor. It's the same as throwing stuff in or kicking it out. 


#64
Feb2414, 01:53 PM

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is a bit meaningless, so another direction is called for. "Just because you don't know the answer, you don't have to get mad", said the lion to the elephant. Please don't throw me into the Mediterranean, like Hippasus. I'm not a magazine salesman, nor do I have some personal theory. I'm just trying to figure out ways to avoid "I", like the New Scientist article wants too. I think not factoring it out in the first place is a fertile not futile endeavor. 


#65
Feb2414, 01:57 PM

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#66
Feb2414, 02:03 PM

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