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| author | Prefetch | 2021-10-20 11:50:20 +0200 |
|---|---|---|
| committer | Prefetch | 2021-10-20 11:50:20 +0200 |
| commit | 3170fc4b5c915669cf209a521e551115a9bd0809 (patch) | |
| tree | 4cb70f6715be60b383fd2a23662d9795f56fef62 /content/know/concept/hydrostatic-pressure/index.pdc | |
| parent | 2a5024543ed99f569fbade8744e6c8001f2edb02 (diff) | |
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Diffstat (limited to 'content/know/concept/hydrostatic-pressure/index.pdc')
| -rw-r--r-- | content/know/concept/hydrostatic-pressure/index.pdc | 2 |
1 files changed, 1 insertions, 1 deletions
diff --git a/content/know/concept/hydrostatic-pressure/index.pdc b/content/know/concept/hydrostatic-pressure/index.pdc index 001a198..d47d77f 100644 --- a/content/know/concept/hydrostatic-pressure/index.pdc +++ b/content/know/concept/hydrostatic-pressure/index.pdc @@ -54,7 +54,7 @@ $$\begin{aligned} If we now consider a *closed* surface, which encloses a "blob" of the fluid, -then we can use Gauss' theorem to get a volume integral: +then we can use the divergence theorem to get a volume integral: $$\begin{aligned} \va{F} |