Timeline for Plotting fractals in Mathematica for S iteration
Current License: CC BY-SA 4.0
7 events
| when toggle format | what | by | license | comment | |
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| Apr 24, 2022 at 17:30 | comment | added | Junaid | Dear @N0va thanks for your kind help. I think you are too much expert in mathematica complicated figures and graphs. I have upload a similar question at mathematica.stackexchange.com/questions/266827/… If you can provide your kind answar | |
| Apr 11, 2022 at 13:48 | comment | added | N0va | I edited the answer to accommodate your wishes, which are all somewhat trivial modifications of the existing code. (1) Yes, if one bothers to extract the colors from the reference plots. (2) Have you adjusted the plot range to match the one given in the reference?! (3) Just add one additional stage to the Khan-iteration?! I have not looked into choices for $T$ and $\alpha_n$ in this case beyond the ones mentioned in the answer. Feel free to adapt/experiment. | |
| Apr 11, 2022 at 13:47 | history | edited | N0va | CC BY-SA 4.0 |
Following the first three comments I edited the answer and updated the code and plots (see remark in the answer)
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| Apr 10, 2022 at 17:34 | comment | added | Junaid | The M-iteration Paper is in the link researchgate.net/publication/… | |
| Apr 10, 2022 at 17:30 | comment | added | Junaid | (1) Can I get exact colors as I attached the Picure? (2) For P5(z)=z^5+z^4+z^3+z^2+z then the Mann iteration figure is different from the paper. (3) How I set the following M-iteration which more general than the Khan-iteration $s_{n}=(1-\alpha_{n})z_{n}+\alpha_{n} Tz_{n}$, $y_{n}=Ts_{n}$ and $z_{n+1}=Ty_{n}$. | |
| Apr 10, 2022 at 17:26 | comment | added | Junaid | Dear @N0va I will thank you very very very much for your remarkable help. I will be more thankfull If you can do the following. | |
| Apr 7, 2022 at 11:55 | history | answered | N0va | CC BY-SA 4.0 |