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

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Classes

class  InclinedPlaneProblem< ELEMENT, INTERFACE_ELEMENT >
 Generic problem class that will form the base class for both spine and elastic mesh-updates of the problem. Templated by the bulk element and interface element types. More...
 
class  SpineInclinedPlaneMesh< ELEMENT >
 Create a spine mesh for the problem. More...
 
class  SpineInclinedPlaneProblem< ELEMENT, TIMESTEPPER >
 
class  ElasticInclinedPlaneMesh< ELEMENT >
 Create an Elastic mesh for the problem. More...
 
class  ElasticInclinedPlaneProblem< ELEMENT, TIMESTEPPER >
 

Namespaces

 Global_Physical_Variables
 

Functions

Vector< double > Global_Physical_Variables::G (2, 0.0)
 The Vector direction of gravity, set in main() More...
 
void Global_Physical_Variables::wall_unit_normal_inlet_fct (const Vector< double > &x, Vector< double > &normal)
 Function that specifies the wall unit normal at the inlet. More...
 
void Global_Physical_Variables::wall_unit_normal_outlet_fct (const Vector< double > &x, Vector< double > &normal)
 Function that specified the wall unit normal at the outlet. More...
 
void Global_Physical_Variables::hydrostatic_pressure_outlet (const double &time, const Vector< double > &x, const Vector< double > &n, Vector< double > &traction)
 Function that prescribes the hydrostatic pressure field at the outlet. More...
 
void Global_Physical_Variables::hydrostatic_pressure_inlet (const double &time, const Vector< double > &x, const Vector< double > &n, Vector< double > &traction)
 Function that prescribes hydrostatic pressure field at the inlet. More...
 
int main (int argc, char **argv)
 

Variables

double Global_Physical_Variables::Re =0.0
 Reynolds number, based on the average velocity within the fluid film. More...
 
double Global_Physical_Variables::ReInvFr =2.0
 
double Global_Physical_Variables::Alpha = 1.0*atan(1.0)
 Angle of incline of the slope (45 degrees) More...
 
double Global_Physical_Variables::Ca = 1.0
 The Capillary number. More...
 
double Global_Physical_Variables::K = 0.1
 Set the wavenumber. More...
 
double Global_Physical_Variables::N_wave = 3
 Set the number of waves desired in the domain. More...
 
double Global_Physical_Variables::Length = 2*N_wave*4.0*atan(1.0)/K
 The length of the domain to fit the desired number of waves. More...
 
Vector< double > Global_Physical_Variables::Wall_normal
 Direction of the wall normal vector (at the inlet) More...
 
double Global_Physical_Variables::Inlet_Angle = 2.0*atan(1.0)
 The contact angle that is imposed at the inlet (pi) More...
 
ConstitutiveLaw * Global_Physical_Variables::Constitutive_law_pt
 Constitutive law used to determine the mesh deformation. More...
 
double Global_Physical_Variables::Nu =0.1
 Pseudo-solid Poisson ratio. More...
 

Function Documentation

int main ( int  argc,
char **  argv 
)