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Classes | |
class | FourierDecomposedTimeHarmonicLinearElasticityProblem< ELEMENT > |
Class to validate time harmonic linear elasticity (Fourier decomposed) More... | |
Namespaces | |
Global_Parameters | |
Namespace for global parameters. | |
Functions | |
std::complex< double > | Global_Parameters::Nu (0.3, 0.05) |
Define Poisson's ratio Nu. More... | |
std::complex< double > | Global_Parameters::E (1.0, 0.01) |
Define the non-dimensional Young's modulus. More... | |
std::complex< double > | Global_Parameters::Omega_sq (10.0, 5.0) |
Define the non-dimensional square angular frequency of time-harmonic motion. More... | |
const std::complex< double > | Global_Parameters::I (0.0, 1.0) |
Define the imaginary unit. More... | |
void | Global_Parameters::boundary_traction (const Vector< double > &x, const Vector< double > &n, Vector< std::complex< double > > &result) |
The traction function at r=rmin: (t_r, t_z, t_theta) More... | |
void | Global_Parameters::body_force (const Vector< double > &x, Vector< std::complex< double > > &result) |
The body force function; returns vector of complex doubles in the order (b_r, b_z, b_theta) More... | |
void | Global_Parameters::exact_solution (const Vector< double > &x, Vector< double > &u) |
The exact solution in a flat-packed vector: More... | |
int | main (int argc, char *argv[]) |
Driver code. More... | |
int main | ( | int | argc, |
char * | argv[] | ||
) |
Driver code.
Definition at line 517 of file unstructured_cylinder.cc.
References Global_Parameters::rmax, Global_Parameters::rmin, Global_Parameters::zmax, and Global_Parameters::zmin.