Increasingly little.
this post was submitted on 07 Jul 2025
20 points (81.2% liked)
Ask Lemmy
33141 readers
1596 users here now
A Fediverse community for open-ended, thought provoking questions
Rules: (interactive)
1) Be nice and; have fun
Doxxing, trolling, sealioning, racism, and toxicity are not welcomed in AskLemmy. Remember what your mother said: if you can't say something nice, don't say anything at all. In addition, the site-wide Lemmy.world terms of service also apply here. Please familiarize yourself with them
2) All posts must end with a '?'
This is sort of like Jeopardy. Please phrase all post titles in the form of a proper question ending with ?
3) No spam
Please do not flood the community with nonsense. Actual suspected spammers will be banned on site. No astroturfing.
4) NSFW is okay, within reason
Just remember to tag posts with either a content warning or a [NSFW] tag. Overtly sexual posts are not allowed, please direct them to either !asklemmyafterdark@lemmy.world or !asklemmynsfw@lemmynsfw.com.
NSFW comments should be restricted to posts tagged [NSFW].
5) This is not a support community.
It is not a place for 'how do I?', type questions.
If you have any questions regarding the site itself or would like to report a community, please direct them to Lemmy.world Support or email info@lemmy.world. For other questions check our partnered communities list, or use the search function.
6) No US Politics.
Please don't post about current US Politics. If you need to do this, try !politicaldiscussion@lemmy.world or !askusa@discuss.online
Reminder: The terms of service apply here too.
Partnered Communities:
Logo design credit goes to: tubbadu
founded 2 years ago
MODERATORS
as the years go on
I could go on for a while, but probably would never quite get to the point.
Out with it, already
Nearly everything
Almost all there is tuh know
My knowledge on them has its limits
I was expecting answers but got jokes, not disappointed, just enjoying the jokes.
As for asymptotes, many mathematical functions have a value they are going towards but never quite reach. One example would be to start with 1 and then halve it, then halve it, then halve it, and keep going forever. It will trend towards 0 but never ever reach it.
Another example of approaching 0 is y = 1/x which is a cool graph. There is a curve which starts just to the right of the Y axis at maximum Y value and comes almost straight down, curves out to 1,1 then shoots out along towards the X axis almost but never reaching it. The cool thing is it does the exact same in the lower left quadrant with the line coming from the negative X axis, passing -1,-1, the shooting down the Y axis.
You can keep asking, but over time you’ll learn less and less and never get the whole answer.
It’s what happens when a very naughty function tries to divide by zero.
The teacher who taught pre-calc got worse and worse at teaching, but never reach the line to get them fired.
I had As in math before I got that dipshit. He failed like half the class, everyone else got Cs and Ds.
I don't like them apples.
Almost everything, but not quite.
Introduced through trig functions, then calculus limits, then logarithms and exponentiation.
What is there to know? They're when a line gets to infinity in a specific coordinate axis, right?
I can identify them in a police line-up of geometry stuff.
They’re extreme at the limits.
My old teacher used the line "You don't know your asymptote from a hole on the graph."
It tickled a bunch of immature high schoolers.
Thats hilarious
sorry, but my memory doesn't reach that far
I wonder if a reacharound can be plotted. Also how would it look graphically