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Update 3.2 User interfaces 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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...@@ -1393,7 +1393,7 @@ PHYSICS SPECIFICATIONS (code parameter: `_C.conduction`). ...@@ -1393,7 +1393,7 @@ PHYSICS SPECIFICATIONS (code parameter: `_C.conduction`).
Ohmic diffusion enters the induction equation and energy equation as a Ohmic diffusion enters the induction equation and energy equation as a
field contribution given by field contribution given by
**E**<sub>*D*</sub>=*η*<sub>*D*</sub>∇×**B** **E**<sub>*D*</sub> = *η*<sub>*D*</sub>∇×**B**
where *η*<sub>*D*</sub> \[m<sup>2</sup>⋅s<sup>−1</sup>\] is the where *η*<sub>*D*</sub> \[m<sup>2</sup>⋅s<sup>−1</sup>\] is the
diffusion coefficient. diffusion coefficient.
...@@ -1430,8 +1430,7 @@ user-defined ambipolar diffusion coefficient. Ambipolar diffusion enters ...@@ -1430,8 +1430,7 @@ user-defined ambipolar diffusion coefficient. Ambipolar diffusion enters
the induction equation and energy equation as a field contribution given the induction equation and energy equation as a field contribution given
by by
**E**<sub>*AD*</sub> = *η*<sub>*AD*</sub>/*μ***B**×\[(∇×**B****B**\] **E**<sub>*AD*</sub> = *η*<sub>*AD*</sub>**B**×\[(∇×**B****B**\]/*μ*
where *η*<sub>*AD*</sub> where *η*<sub>*AD*</sub>
\[V⋅m⋅A<sup>−1</sup>⋅T<sup>−2</sup>\] denotes the \[V⋅m⋅A<sup>−1</sup>⋅T<sup>−2</sup>\] denotes the
... ...
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