Sujet : Re: f(x) = (x^2 + 1) --------- strange (curved Surface) Graph
De : wugi (at) *nospam* brol.invalid (guido wugi)
Groupes : sci.lang sci.mathDate : 29. Jul 2024, 22:30:57
Autres entêtes
Organisation : A noiseless patient Spider
Message-ID : <v891mh$l1po$1@dont-email.me>
References : 1
User-Agent : Mozilla Thunderbird
Op 29-7-2024 om 21:28 schreef HenHanna:
>
When this function y = f(x) = (x^2 + 1) is first introduced, we learn its Graph to be a simple parabola.
>
THEN when we learn that x can be a complex number, so that
the Graph is 2 (orthogonally) linked Parabolas.
---------- like this:
>
https://phantomgraphs.weebly.com/uploads/5/4/5/4/5454288/4_4_orig.jpg
>
https://www.geogebra.org/resource/czbugz9h/fofRh3ZjmwwISd2v/material-czbugz9h-thumb@l.png >
>
>
>
This graph is showing a smooth , curved surface -->
>
https://i.sstatic.net/soSJ8.png
>
What is this graph showing???
>
it purports to show f(x) = (x^2 + 1)
Some 3D graphs include the surfaces of Re(f(z)), Im(f(z)), Abs(f(z)), where w=f(z), z=x+iy and w=u+iv. The graphs you mentioned are (part of) one of these.*
The 'true' graph of the function is a fourdimensional surface in (x,y,u,v) space. No mainstream math grapher whatsoever has even come to think about trying to visualise complex functions as 4D surfaces. But I have, since college. I've been using such tools as mm-paper with a programmable HP calculator, Amiga and Quick Basic, until I came across the unpretentious Graphing Calculator 4.0 of Pacific Tech that came with 4D included in its standard package! And now I've tricksed Desmos3D and Geogebra as well into graphing 4D surfaces. All to be discovered in my webpages and YT channel.
https://www.wugi.be/qbComplex.htmlhttps://www.wugi.be/qbinterac.html (Desmos and Geogebra examples, ongoing and not up to date)*
https://www.youtube.com/@wugionyoutube/playlists (look for "4D" and "Complex Function" playlists)
So, for your parabola, ie, w=z^2:
https://www.wugi.be/animgif/Parab.gif (QBasic)
https://www.youtube.com/watch?v=wuviGuMTrTM&list=PL5xDSSE1qfb6Uh98_9vS4BEMEGJB2MZjs&index=2https://www.youtube.com/watch?v=oIyGTf1ZKCI&list=PL5xDSSE1qfb6FIk0Pl3VCg5p3Ema52hEG&index=5https://www.desmos.com/calculator/ijcs47qmaz?lang=nl (Desmos2D)
https://www.geogebra.org/calculator/truptem5 (Geogebra)
https://www.desmos.com/3d/q9vhspfqq7?lang=nl (Desmos3D example of w=cos z, haven't done parabola yet)
*Another interesting family of 3D surfaces you won't encounter elsewhere is that of "true curve" surfaces, ie curves belonging "as such" (courbes vraies = "telles quelles") to the 4D function surface. I've only this year 'rediscovered' them (my first ever attempts were drawing 3D curves belonging to the 4D surfaces). See my Desmos page above for examples.
Feel free to explore, and welcome to the interested ;-)
-- guido wugi