g_t

PURPOSE ^

G Data on the Neumann boundary

SYNOPSIS ^

function Stress = g_t(x,t)

DESCRIPTION ^

G   Data on the Neumann boundary
   Stress = G(X,T) returns values of the normal-derivative at N discrete points on
   the Neumann boundary at time T. This input data has to be choosen by the user. X
   has dimension N x 2 and Y has dimension N x 1.

   See also HMMFEM2D, F, and U_D.


   The code is available at http://anmc.epfl.ch/ and described in
   further detail in

   A. Abdulle and A. Nonnenmacher
   "A short and versatile finite element multiscale code for
   homogenization problems"
   Computer Methods in Applied Mechanics and Engineering,
   http://dx.doi.org/10.1016/j.cma.2009.03.019

   Please cite this article in any publication describing research
   performed using the software.


   Email           : assyr.abdulle@epfl.ch and achim.nonnenmacher@epfl.ch
   Last updated    : 04/29/2009 with MATLAB 7.4

   FE_HMM2D is Copyright (C) 2009 A. Abdulle and A. Nonnenmacher.
   The software is provided free for non-commercial use unter the terms of
   the GNU General Public License. See "copyright.m" for full details.

CROSS-REFERENCE INFORMATION ^

This function calls: This function is called by:

SOURCE CODE ^

0001 function Stress = g_t(x,t)
0002 %G   Data on the Neumann boundary
0003 %   Stress = G(X,T) returns values of the normal-derivative at N discrete points on
0004 %   the Neumann boundary at time T. This input data has to be choosen by the user. X
0005 %   has dimension N x 2 and Y has dimension N x 1.
0006 %
0007 %   See also HMMFEM2D, F, and U_D.
0008 %
0009 %
0010 %   The code is available at http://anmc.epfl.ch/ and described in
0011 %   further detail in
0012 %
0013 %   A. Abdulle and A. Nonnenmacher
0014 %   "A short and versatile finite element multiscale code for
0015 %   homogenization problems"
0016 %   Computer Methods in Applied Mechanics and Engineering,
0017 %   http://dx.doi.org/10.1016/j.cma.2009.03.019
0018 %
0019 %   Please cite this article in any publication describing research
0020 %   performed using the software.
0021 %
0022 %
0023 %   Email           : assyr.abdulle@epfl.ch and achim.nonnenmacher@epfl.ch
0024 %   Last updated    : 04/29/2009 with MATLAB 7.4
0025 %
0026 %   FE_HMM2D is Copyright (C) 2009 A. Abdulle and A. Nonnenmacher.
0027 %   The software is provided free for non-commercial use unter the terms of
0028 %   the GNU General Public License. See "copyright.m" for full details.
0029 
0030 %
0031 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
0032 
0033 
0034 Stress = zeros(size(x,1),1);

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