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| author | Claudius "keldu" Holeksa <mail@keldu.de> | 2025-11-11 20:30:56 +0100 |
|---|---|---|
| committer | Claudius "keldu" Holeksa <mail@keldu.de> | 2025-11-11 20:30:56 +0100 |
| commit | bd2ce0e980ae1782bd772d0374049cb183a7fcaf (patch) | |
| tree | 13722d227356274bc3c9198b89dbd995a2513ace | |
| parent | 4ae12b3a9d868b7a65c6518613d2e9e4937c6a17 (diff) | |
| download | phd-fluid_mechanics_report-bd2ce0e980ae1782bd772d0374049cb183a7fcaf.tar.gz | |
progress
| -rw-r--r-- | typst/main.typ | 8 |
1 files changed, 7 insertions, 1 deletions
diff --git a/typst/main.typ b/typst/main.typ index fc1dcd8..7d9c539 100644 --- a/typst/main.typ +++ b/typst/main.typ @@ -94,7 +94,13 @@ than the possibly more correct value by Proudman and Pearson@proudman_pearson_19 //$ F = F_S ( 1 + (3/8)"Re" + (9/40)("Re")^2 * (log "Re" + gamma + (5/3) log 2 - (323/360)) + (27/80)*"Re"^3 log "Re" ) $ //) -Using spherical coordinates $(r,theta,phi.alt)$ +Using spherical coordinates $(r,theta,phi.alt)$ and no external force we receive the velocity components + +#math.equation( +block: true, +$ v_r = U cos theta (1- (3r)/(2a) + r^3 / (2a^3)) $ +) + Do the analitical derivation from sphere and stokes here TODO |