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Posted:
2 decades ago
21.09.2009, 18:38 GMT-4
Hello, Kamil. You can implement derivatives very easily in COMSOL.
The notation is very simple: you can write d(A,B), where A is the variable you wish to derive with respect to B. You can also use Ab, though I think this only works up to 2nd order, and I'm not sure if it works of every variable.
So, for example, dT/dx = d(T,x) = Tx
You can nest these to get higher orders, such as:
d2T/dx2 = d(d(T,x),x) = Txx
d3T/dx3 = d(d(d(T,x),x),x)
You can also derivate with respect to different variables while nesting.
Hope this helps.
Hello, Kamil. You can implement derivatives very easily in COMSOL.
The notation is very simple: you can write d(A,B), where A is the variable you wish to derive with respect to B. You can also use Ab, though I think this only works up to 2nd order, and I'm not sure if it works of every variable.
So, for example, dT/dx = d(T,x) = Tx
You can nest these to get higher orders, such as:
d2T/dx2 = d(d(T,x),x) = Txx
d3T/dx3 = d(d(d(T,x),x),x)
You can also derivate with respect to different variables while nesting.
Hope this helps.
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Posted:
1 decade ago
25.08.2010, 07:58 GMT-4
Hi,
I am experiencing a similar problem: I want to use the time derivative of an Integration Coupling Variable (on a boundary) as BC (normal inflow velocity of a fluid dynamics simulation).
The integration variable is V. Typing d(V,t) in the BC for normal inflow velocity does not work. The velocity remains zero throughout the simulation.
Any clue what to do (V. 3.5a)?
Thanks. Alois
Hi,
I am experiencing a similar problem: I want to use the time derivative of an Integration Coupling Variable (on a boundary) as BC (normal inflow velocity of a fluid dynamics simulation).
The integration variable is V. Typing d(V,t) in the BC for normal inflow velocity does not work. The velocity remains zero throughout the simulation.
Any clue what to do (V. 3.5a)?
Thanks. Alois