Timeline for Magnitude of Acceleration Vector when Speed is Constant
Current License: CC BY-SA 4.0
13 events
| when toggle format | what | by | license | comment | |
|---|---|---|---|---|---|
| Feb 28 at 15:52 | vote | accept | Sylvia | ||
| Feb 28 at 15:36 | comment | added | Philip Wood | Clearly conceptual. | |
| Feb 28 at 15:35 | history | reopened |
gandalf61 Agnius Vasiliauskas Philip Wood |
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| Feb 28 at 15:34 | comment | added | Sylvia | It was a question that came to my mind while I was drawing the differential triangle. The post refers to the question of whether the size of the interval is decisive | |
| Feb 28 at 15:32 | answer | added | Philip Wood | timeline score: 1 | |
| Feb 28 at 15:23 | review | Reopen votes | |||
| Feb 28 at 15:41 | |||||
| Feb 28 at 15:23 | comment | added | gandalf61 | Voting to reopen. Clearly a conceptual question not a "do my homework" question. | |
| Feb 28 at 15:21 | history | closed |
TLDR Hyperon Jon Custer |
Not suitable for this site | |
| Feb 28 at 15:18 | review | Close votes | |||
| Feb 28 at 15:21 | |||||
| Feb 28 at 15:10 | comment | added | Hyperon | Why not simply differentiating $x(t)= r \cos \omega t, \; y(t)= r \sin \omega t$ twice and see what happens (together with a drawing). | |
| Feb 28 at 15:00 | answer | added | Albertus Magnus | timeline score: 4 | |
| Feb 28 at 14:58 | history | edited | TLDR | CC BY-SA 4.0 |
Fixed the title to match the question
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| Feb 28 at 14:26 | history | asked | Sylvia | CC BY-SA 4.0 |