# Difference between revisions of "Talk:2110: Error Bars"

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[[Special:Contributions/162.158.79.113|162.158.79.113]] 17:45, 11 February 2019 (UTC) hagmanti | [[Special:Contributions/162.158.79.113|162.158.79.113]] 17:45, 11 February 2019 (UTC) hagmanti | ||

− | A question too, does the CI tend towards negative infinity, zero, or one? [[User:Netherin5|Netherin5]] ([[User talk:Netherin5|talk]]) 18:01, 11 February 2019 (UTC) | + | A question too, does the CI tend towards negative infinity, zero, or one? Edit: Today I learned what CI means. [[User:Netherin5|Netherin5]] ([[User talk:Netherin5|talk]]) 18:01, 11 February 2019 (UTC) |

## Revision as of 18:37, 11 February 2019

I put in a little thing about fractals and Cantor sets, seemed relevant. Netherin5 (talk) 17:32, 11 February 2019 (UTC)

Would the series have a limit or would it continue on until the error bars go from infinity to +infinity?

That's not my understanding of "propagating error". I understand that phrase to mean that you're taking a measured value (that has uncertainty) and plugging it into a formula / using it calculate another value. Because of the way this works, the (absolute & relative) error on the newly calculated value is likely to be larger or smaller than the error in the original value (the overall size of the error bars changes). Randall's joke is that, instead of calculating the new error bars, he calculates error bars on the ends of his existing bars. I also agree with Netherin5 that there's a clear fractal reference here. 162.158.79.113 17:45, 11 February 2019 (UTC) hagmanti

A question too, does the CI tend towards negative infinity, zero, or one? Edit: Today I learned what CI means. Netherin5 (talk) 18:01, 11 February 2019 (UTC)