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authorPrefetch2021-03-13 21:50:05 +0100
committerPrefetch2021-03-13 21:50:05 +0100
commit6f560e87fa5cd10852e073adbedfc3d46e5da8bb (patch)
tree6bbc590c114c436ea8cc8de1b930ed1448925213 /content/know/concept/rayleigh-plateau-instability/index.pdc
parent2d15bb2b329b825df262c0a128d391b0dcbede58 (diff)
Expand knowledge base
Diffstat (limited to 'content/know/concept/rayleigh-plateau-instability/index.pdc')
-rw-r--r--content/know/concept/rayleigh-plateau-instability/index.pdc3
1 files changed, 2 insertions, 1 deletions
diff --git a/content/know/concept/rayleigh-plateau-instability/index.pdc b/content/know/concept/rayleigh-plateau-instability/index.pdc
index f7e10d4..ae0a21d 100644
--- a/content/know/concept/rayleigh-plateau-instability/index.pdc
+++ b/content/know/concept/rayleigh-plateau-instability/index.pdc
@@ -21,7 +21,8 @@ eventually breaks into droplets as it falls.
Consider an infinitely long cylinder of liquid
with radius $R_0$ and surface tension $\alpha$.
-In this case, the Young-Laplace equation states that its internal pressure
+In this case, the [Young-Laplace equation](/know/concept/young-laplace-law/)
+states that its internal pressure
is a constant $p_i$ expressed as follows,
where $p_o$ is the exterior air pressure: