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Talk:Monad (nonstandard analysis)

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The image here doesn't make sense, and is poorly produced. The number display's the decimal 0.9999.... (with infinitely many 9's) as being different then 1. Which is simply false. For this reason I am removing the picture from the article until it can be discussed further.

I suppose it did not occur to you that I may be familiar with the non-unicity of decimal representation of the reals :) Could you please take a look at the current discussion at 0.999...? Katzmik (talk) 16:06, 11 December 2008 (UTC)[reply]

I did not think you were unaware of uniqueness problems. In a non-standard setting there is not a agreed upon convention for which number 0.999... means. You seem to to take the position that it represents some number whose standard part has infinitely many nines. My interpretation would be the number all of whose digits follow the indicated pattern, ie., 0.999...;...999... (borrowing Lightstone's notation). This number is 1. As it is open to interpretation, it is not a very instructive picture. Also it uses the notion of a non-standard microscope which would only make sense to people having read Keisler's book. Thenub314 (talk) 09:51, 12 December 2008 (UTC)[reply]

No, I meant to be a specific unbounded hyperinteger. The underbrace in the figure is supposed to indicate that the 9's extend exactly to the digit and no further. In my experience, students relate to these ideas with great enthusiasm. The infinite-magnification microscope is an idealized concept that has proven classroom utility. Katzmik (talk) 20:56, 13 December 2008 (UTC)[reply]

It was not clear to me that you intended an unbounded hyperinteger, and perhaps many unfamiliar with NSA might have the same confusion at first glance. I don't doubt that students relate to the idea with enthusiasm, I just felt this image was unclear. I have no problem with discussing a "microscope", but I there should be some explanation of what is meant by it.

Merger

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This article could easily be merged into the one on standard part function. It doesn't merit its own article. --Jordan Mitchell Barrett (talk) 06:46, 15 February 2020 (UTC)[reply]