Timeline for How to mathematically derive the pressure contribution to drag force over a sphere after the viscous stress is determined? [duplicate]
Current License: CC BY-SA 4.0
9 events
| when toggle format | what | by | license | comment | |
|---|---|---|---|---|---|
| Dec 5, 2023 at 16:30 | history | edited | Benri | CC BY-SA 4.0 |
edited title
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| Dec 5, 2023 at 16:29 | history | edited | Benri | CC BY-SA 4.0 |
added 67 characters in body; edited title
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| Dec 5, 2023 at 12:00 | comment | added | Chet Miller | Stoke's law is for creeping flow in which the stream function satisfies the biharmonic equation. | |
| Dec 4, 2023 at 22:50 | history | closed |
Farcher Qmechanic♦ |
Duplicate of Deriving Stokes' law ($f_v=6\pi\eta Rv$) in a simple way | |
| Dec 4, 2023 at 22:50 | review | Close votes | |||
| Dec 4, 2023 at 22:55 | |||||
| Dec 4, 2023 at 22:29 | comment | added | Farcher | Does this answer your question? Deriving Stokes' law ($f_v=6\pi\eta Rv$) in a simple way | |
| Dec 4, 2023 at 18:45 | comment | added | LPZ | duplicate: Can we derive Stokes' drag law from Navier-Stokes' equation? with links to other similar questions in Quillo's comment | |
| S Dec 4, 2023 at 17:54 | review | First questions | |||
| Dec 4, 2023 at 18:27 | |||||
| S Dec 4, 2023 at 17:54 | history | asked | Benri | CC BY-SA 4.0 |