PDE Toolkit - what is d when m is non-zero?
2 vues (au cours des 30 derniers jours)
Afficher commentaires plus anciens
To solve the following equation
we need to input values of m,d,c,a and f.
I have been able to input m,c,a,f, however, for d, there is a special rule. The following is from Matlab's own support pages.
It says "Generally, d is either proportional to results results.M, or is a linear combination of results.M and results.K". M and K are matrices obtained after the assembleFEMatrices (i.e., after discretization).
Now, to say the least, this is confusing, as I do have the values of the d matrix (2x2 symmetric matrix in my case). Any insights would be appreciated.
2 commentaires
Réponses (1)
Ravi Kumar
le 21 Jan 2022
When m is non-zero in a structural problem, d-matrix (coefficient) could represent a damping matrix. That is the most common use case. Hence, the documentation describes how to compute d, proportional damping matrix, as a combination of global mass and stiffness matrix.
10 commentaires
Torsten
le 25 Jan 2022
Thank you for your feedback.
To see whether the reduction to a first-order system works, I'd test it for the acoustic wave equation
d^2u/dt^2 = omega^2 * d^2u/dx^2
and compare with the solution of the formulation as a PDE second order in time.
Voir également
Catégories
En savoir plus sur PDE Solvers dans Help Center et File Exchange
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!