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version 4.2 authored by Udo Ziegler's avatar Udo Ziegler
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3-NIRVANA-user-guide/3.2-User-interfaces.md
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...@@ -1011,7 +1011,7 @@ for two problems: the Orszag-Tang vortex problem (example 1) and a ...@@ -1011,7 +1011,7 @@ for two problems: the Orszag-Tang vortex problem (example 1) and a
shock-cloud interaction problem (example 2). shock-cloud interaction problem (example 2).
**Example 1** (taken from `/nirvana/testproblems/MHD/problem2`; cf. **Example 1** (taken from `/nirvana/testproblems/MHD/problem2`; cf.
[Z04](#references)) \[[Z04](#references)\])
IC for the Orszag-Tang vortex problem simulated in a doubly-periodic IC for the Orszag-Tang vortex problem simulated in a doubly-periodic
square domain of length L (given by `_C.up[0]-_C.lo[0]`): square domain of length L (given by `_C.up[0]-_C.lo[0]`):
...@@ -1097,7 +1097,7 @@ algebraic expression $a^2+b^2+c^2$. ...@@ -1097,7 +1097,7 @@ algebraic expression $a^2+b^2+c^2$.
IC for the shock-cloud interaction problem simulated in a 3D Cartesian IC for the shock-cloud interaction problem simulated in a 3D Cartesian
box given by (x,y,z)=[-1/2,1/2]<sup>3</sup>: box given by (x,y,z)=[-1/2,1/2]<sup>3</sup>:
![ic_example2](uploads/e31ebefeb64b91e0ef74d839ebac4de8/ic_example2.png){width=700px} ![ic_example2](uploads/e31ebefeb64b91e0ef74d839ebac4de8/ic_example2.png){width=100%}
At **x**=(0.3,0,0) a spherical clump with At **x**=(0.3,0,0) a spherical clump with
radius 0.15 and density of 10 is embedded and co-moving with its radius 0.15 and density of 10 is embedded and co-moving with its
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