Timeline for Solve polynomial functions with four unknown variables [duplicate]
Current License: CC BY-SA 4.0
11 events
| when toggle format | what | by | license | comment | |
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| Mar 11 at 5:52 | vote | accept | 葉柏樂 | ||
| Mar 11 at 5:52 | comment | added | 葉柏樂 | okay, thank for the knowledge | |
| Mar 9 at 14:27 | history | closed |
Artes MarcoB plotting Users with the plotting badge or a synonym can single-handedly close plotting questions as duplicates and reopen them as needed. |
Duplicate of Get polynomial interpolation formula | |
| Mar 9 at 13:49 | answer | added | ScienceSnake | timeline score: 2 | |
| Mar 9 at 13:36 | review | Close votes | |||
| Mar 9 at 14:27 | |||||
| Mar 9 at 13:19 | comment | added | Artes | The way to go is described here: Get polynomial interpolation formula. | |
| Mar 9 at 13:18 | comment | added | ScienceSnake | Hard to tell if it is. Look at the y axis, you're so zoomed out it's impossible to see anything. | |
| Mar 9 at 12:54 | comment | added | 葉柏樂 | but why the start and end curve is different? | |
| Mar 9 at 12:48 | history | edited | user64494 | CC BY-SA 4.0 |
edited title
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| Mar 9 at 12:45 | comment | added | ScienceSnake | Your problem is underdefined. There are infinitely many polynomials that go through those two points. The simplest is just a straight line. | |
| Mar 9 at 12:39 | history | asked | 葉柏樂 | CC BY-SA 4.0 |