Classes | Namespaces | Functions | Variables
elastic_single_layer.cc File Reference

Go to the source code of this file.

Classes

class  InterfaceProblem< ELEMENT, TIMESTEPPER >
 /////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////// More...
 

Namespaces

 Global_Physical_Variables
 Namespace for physical parameters.
 

Functions

Vector< double > Global_Physical_Variables::G (2)
 Direction of gravity. More...
 
int main (int argc, char *argv[])
 /////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////// More...
 

Variables

double Global_Physical_Variables::Re = 5.0
 Reynolds number. More...
 
double Global_Physical_Variables::St = 1.0
 Strouhal number. More...
 
double Global_Physical_Variables::ReSt
 Womersley number (Reynolds x Strouhal, computed automatically) More...
 
double Global_Physical_Variables::ReInvFr = 5.0
 Product of Reynolds number and inverse of Froude number. More...
 
double Global_Physical_Variables::Ca = 0.01
 Capillary number. More...
 
double Global_Physical_Variables::Nu = 0.1
 Pseudo-solid Poisson ratio. More...
 

Function Documentation

◆ main()

int main ( int  argc,
char *  argv[] 
)

/////////////////////////////////////////////////////////////////////// ///////////////////////////////////////////////////////////////////////

Driver code for two-dimensional single fluid free surface problem

Maximum time

Duration of timestep

Definition at line 557 of file elastic_single_layer.cc.

References Global_Physical_Variables::G(), Global_Physical_Variables::Re, Global_Physical_Variables::ReSt, Global_Physical_Variables::St, and InterfaceProblem< ELEMENT, TIMESTEPPER >::unsteady_run().