tadd note on visualizing contact pressure - Granular.jl - Julia package for gra… | |
git clone git://src.adamsgaard.dk/Granular.jl | |
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--- | |
commit e4049c1e69cd49dc9c287e770375aa917dda9ed5 | |
parent 2db5af1c1dc1fe40502e5e601d52da34ce1dd86f | |
Author: Anders Damsgaard <[email protected]> | |
Date: Wed, 8 Nov 2017 12:00:54 -0500 | |
add note on visualizing contact pressure | |
Diffstat: | |
M docs/src/man/getting_started.md | 4 +++- | |
1 file changed, 3 insertions(+), 1 deletion(-) | |
--- | |
diff --git a/docs/src/man/getting_started.md b/docs/src/man/getting_started.md | |
t@@ -396,7 +396,9 @@ julia> Granular.render(sim, trim=false) | |
``` | |
### Exercises | |
-- How are the granular contact pressures distributed in the final result? | |
+- How are the granular contact pressures distributed in the final result? You | |
+ can visualize this by selecting "Contact Pressure [Pa]" in the *Coloring* | |
+ field inside ParaView. | |
- Try running the above example, but without fluid drag. Disable the drag by | |
including the call `Granlar.disableOceanDrag!(grain)` in the `for` loop | |
where gravitational acceleration is set for each grain. |