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Description: fix some spelling errors.
Author: Mònica Ramírez Arceda <monica@probeta.net>
Last-Update: 2011-07-04
--- a/html/e88e18.htm
+++ b/html/e88e18.htm
@@ -226,7 +226,7 @@
data for
the plate elements into <a href="e88i1.htm">Z88I1.TXT</a> in the
section
-material informations. However, the possibility for entering the
+material information. However, the possibility for entering the
pressure loads
by the surface and pressure loads file Z88I5.TXT, too, is implemented
for
--- a/html/e88e19.htm
+++ b/html/e88e19.htm
@@ -237,7 +237,7 @@
data for
the plate elements into <a href="e88i1.htm">Z88I1.TXT</a> in the
section
-material informations. However, the possibility for entering the
+material information. However, the possibility for entering the
pressure loads
by the surface and pressure loads file Z88I5.TXT, too, is implemented
for
--- a/html/e88e20.htm
+++ b/html/e88e20.htm
@@ -210,7 +210,7 @@
data for
the plate elements into <a href="e88i1.htm">Z88I1.TXT</a> in the
section
-material informations. However, the possibility for entering the
+material information. However, the possibility for entering the
pressure loads
by the surface and pressure loads file Z88I5.TXT, too, is implemented
for
--- a/html/e88ge.htm
+++ b/html/e88ge.htm
@@ -587,7 +587,7 @@
convert the
data sets back into the CAD system by CAD converters Z88X. In the CAD
system
-you can add more informations, then push the data again to Z88. This
+you can add more information, then push the data again to Z88. This
flexibility is unique!<o:p></o:p></span></p>
<p><span lang="EN-GB" style="">The </span><a href="e88g.htm"><b><span
lang="EN-GB" style="">3D
--- a/html/e88h.htm
+++ b/html/e88h.htm
@@ -168,7 +168,7 @@
style="" lang="EN-GB">. However, Z88H can deal with all
Z88 meshes. Z88H reads the Z88 input files </span><a href="e88i1.htm"><span
style="" lang="EN-GB">Z88I1.TXT</span></a><span style="" lang="EN-GB">
-(general structure informations)
+(general structure information)
and </span><a href="e88i2.htm"><span style="" lang="EN-GB">Z88I2.TXT</span></a><span
style="" lang="EN-GB"> (boundary conditions) and –if
needed- <a href="e88i5.htm">Z88I5.TXT</a> (surface and pressure
--- a/html/e88ia.htm
+++ b/html/e88ia.htm
@@ -149,7 +149,7 @@
style="" lang="EN-GB"><o:p></o:p></span></p>
<p><a href="e88i1.htm"><i><span style="" lang="EN-GB">Z88I1.TXT</span></i></a><i><span
style="" lang="EN-GB"> (general structure data,
-coordinates, coincidence, material informations)<br>
+coordinates, coincidence, material information)<br>
</span><a href="e88i2.htm"><span style="" lang="EN-GB">Z88I2.TXT</span></a></i><i><span
style="" lang="EN-GB"> (boundary conditions, loads,
constraints)<br>
--- a/html/e88x.htm
+++ b/html/e88x.htm
@@ -219,7 +219,7 @@
style="" lang="EN-GB"> You cover in the CAD system your component
with a FE mesh or a super-structure following certain rules which
follow below,
-and add if necessary boundary conditions and material informations.
+and add if necessary boundary conditions and material information.
Then make
your CAD system generating a DXF file and start the CAD converter Z88X.
The Z88
@@ -284,7 +284,7 @@
- Complete FE structure in CAD e.g. with not-mesh generator capable
elements <br>
- Conversion CAD ---> Z88 <br>
-- Change e.g. material informations in Z88 <br>
+- Change e.g. material information in Z88 <br>
- Conversion Z88 --- > CAD <br>
- Installation of the boundary conditions in CAD <br>
- Conversion CAD ---> Z88 <br>
@@ -308,7 +308,7 @@
<p><b><span style="" lang="EN-GB">The general philosophy
of a CAD - FEA data interchange:</span></b><span style="" lang="EN-GB"><o:p></o:p></span></p>
<p><span style="" lang="FR">CAD files containe nondirectional
-informations. </span><span style="" lang="EN-GB">It is
+information. </span><span style="" lang="EN-GB">It is
only a wild collections of lines, points and texts, stored in the order
of its
production to make things worse. <o:p></o:p></span></p>
@@ -379,7 +379,7 @@
<p><span style="" lang="EN-GB">(5) Outline each element
with the LINE function on the layer Z88NET. The only section with firm
work
-rules and orders (because of the topological informations). <o:p></o:p></span></p>
+rules and orders (because of the topological information). <o:p></o:p></span></p>
<p><span style="" lang="EN-GB">(6) Write general
information, material information and control information for the
stress
--- a/oldmake/z88.fcd.linux
+++ b/oldmake/z88.fcd.linux
@@ -168,7 +168,7 @@
The light positions have four entries: X,Y and Z. The 4th entry is the W
value for the so-called homogeneous coordinates. If W is 0 then the point
lies in infinity and the beam meets the point X, Y, Z. Consult the OpenGL
-Reference Manual for further informations.
+Reference Manual for further information.
The value for SHINING (= GL_SHININESS) may vary from 0. to 128.
--- a/src/wlog88f.c
+++ b/src/wlog88f.c
@@ -295,7 +295,7 @@
case LOG_EGES:
if(LANG == 1) fprintf(fwlo,"\nEinlesen der Elastizitaetsgesetze");
- if(LANG == 2) fprintf(fwlo,"\nreading material informations");
+ if(LANG == 2) fprintf(fwlo,"\nreading material information");
fflush(fwlo);
break;
--- a/src/wlog88i1.c
+++ b/src/wlog88i1.c
@@ -296,7 +296,7 @@
case LOG_EGES:
if(LANG == 1) fprintf(fl1,"\nEinlesen der Elastizitaetsgesetze");
- if(LANG == 2) fprintf(fl1,"\nreading material informations");
+ if(LANG == 2) fprintf(fl1,"\nreading material information");
fflush(fl1);
break;
--- a/src/wlog88n.c
+++ b/src/wlog88n.c
@@ -344,7 +344,7 @@
case LOG_BERKOIN:
if(LANG == 1) fprintf(fwlo,"\nKoinzidenzvektor berechnen");
- if(LANG == 2) fprintf(fwlo,"\ncomputing element informations");
+ if(LANG == 2) fprintf(fwlo,"\ncomputing element information");
fflush(fwlo);
break;
--- a/src/wlog88x.c
+++ b/src/wlog88x.c
@@ -418,19 +418,19 @@
case LOG_KOIN:
if(LANG == 1) fprintf(fwlo,"\nEinlesen der Koinzidenz");
- if(LANG == 2) fprintf(fwlo,"\nreading element informations");
+ if(LANG == 2) fprintf(fwlo,"\nreading element information");
fflush(fwlo);
break;
case LOG_EGES:
if(LANG == 1) fprintf(fwlo,"\nEinlesen der Elastizitaetsgesetze");
- if(LANG == 2) fprintf(fwlo,"\nreading material informations");
+ if(LANG == 2) fprintf(fwlo,"\nreading material information");
fflush(fwlo);
break;
case LOG_SINFO:
if(LANG == 1) fprintf(fwlo,"\nEinlesen der Superelement- Infos");
- if(LANG == 2) fprintf(fwlo,"\nreading superelement informations");
+ if(LANG == 2) fprintf(fwlo,"\nreading superelement information");
fflush(fwlo);
break;
@@ -674,7 +674,7 @@
if(LANG == 2)
{
fprintf(fwlo,"\n### Z88X.DXF wrong for Z88I1.TXT/Z88NI.TXT: ###");
- fprintf(fwlo,"\n### material informations missing or wrong ..stop ###");
+ fprintf(fwlo,"\n### material information missing or wrong ..stop ###");
}
fflush(fwlo);
break;
--- a/src/wria88f.c
+++ b/src/wria88f.c
@@ -255,7 +255,7 @@
{
fprintf(fo0,"output file Z88O0.TXT: structure info, produced by Z88F V13.0\n");
fprintf(fo0," **************\n");
-fprintf(fo0,"\ngeneral structure informations:");
+fprintf(fo0,"\ngeneral structure information:");
fprintf(fo0,
"\n\ndimension nodes elements DOF mat-infos KFLAG IBFLAG IPFLAG IQFLAG");
fprintf(fo0,
@@ -440,7 +440,7 @@
* Elastizitaetsgesetze
*---------------------------------------------------------------------*/
if(LANG == 1) fprintf(fo0,"\nElastizitaetsgesetze (1 Zeile pro E-Gesetz) :");
-if(LANG == 2) fprintf(fo0,"\nmaterial informations (1 line per material) :");
+if(LANG == 2) fprintf(fo0,"\nmaterial information (1 line per material) :");
if(ibflag == 0 && ipflag == 0)
{
--- a/src/wria88i.c
+++ b/src/wria88i.c
@@ -252,7 +252,7 @@
{
fprintf(fo0,"output file Z88O0.TXT: structure info, produced by Z88I1 V13.0\n");
fprintf(fo0," **************\n");
-fprintf(fo0,"\ngeneral structure informations:");
+fprintf(fo0,"\ngeneral structure information:");
fprintf(fo0,
"\n\ndimension nodes elements DOF mat-infos KFLAG IBFLAG IPFLAG IQFLAG");
fprintf(fo0,
@@ -438,7 +438,7 @@
* Elastizitaetsgesetze
*---------------------------------------------------------------------*/
if(LANG == 1) fprintf(fo0,"\nElastizitaetsgesetze (1 Zeile pro E-Gesetz) :");
-if(LANG == 2) fprintf(fo0,"\nmaterial informations (1 line per material) :");
+if(LANG == 2) fprintf(fo0,"\nmaterial information (1 line per material) :");
if(ibflag == 0 && ipflag == 0)
{
--- a/src/wrim88f.c
+++ b/src/wrim88f.c
@@ -120,12 +120,12 @@
case TX_KOIN:
if(LANG == 1) printf("Koinzidenz einlesen\n");
- if(LANG == 2) printf("reading element informations\n");
+ if(LANG == 2) printf("reading element information\n");
break;
case TX_EGES:
if(LANG == 1) printf("Elastizitaetsgesetze einlesen\n");
- if(LANG == 2) printf("reading material informations\n");
+ if(LANG == 2) printf("reading material information\n");
break;
case TX_Z88A:
--- a/src/wrim88i.c
+++ b/src/wrim88i.c
@@ -134,12 +134,12 @@
case TX_KOIN:
if(LANG == 1) printf("Koinzidenz einlesen\n");
- if(LANG == 2) printf("reading element informations\n");
+ if(LANG == 2) printf("reading element information\n");
break;
case TX_EGES:
if(LANG == 1) printf("Elastizitaetsgesetze einlesen\n");
- if(LANG == 2) printf("reading material informations\n");
+ if(LANG == 2) printf("reading material information\n");
break;
case TX_Z88A:
--- a/src/wrim88n.c
+++ b/src/wrim88n.c
@@ -73,7 +73,7 @@
break;
case TX_BERKOIN:
if(LANG == 1) printf("\nKoinzidenz berechnen:\n");
- if(LANG == 2) printf("\ncomputing element informations:\n");
+ if(LANG == 2) printf("\ncomputing element information:\n");
break;
case TX_WRII1:
if(LANG == 1) printf("\nZ88I1.TXT beschreiben, Ende Z88N\n");
--- a/src/wrim88x.c
+++ b/src/wrim88x.c
@@ -98,15 +98,15 @@
break;
case TX_KOIN:
if(LANG==1) printf("Koinzidenz einlesen\n");
- if(LANG==2) printf("reading element informations\n");
+ if(LANG==2) printf("reading element information\n");
break;
case TX_EGES:
if(LANG==1) printf("Elastizitaetsgesetze einlesen\n");
- if(LANG==2) printf("reading material informations\n");
+ if(LANG==2) printf("reading material information\n");
break;
case TX_SINFO:
if(LANG==1) printf("Superelement-Informationen einlesen\n");
- if(LANG==2) printf("reading superelement informations\n");
+ if(LANG==2) printf("reading superelement information\n");
break;
case TX_Z88FX:
if(LANG==1) printf("Start Z88FX: von DXF nach Z88\n");
--- a/z88.fcd
+++ b/z88.fcd
@@ -168,7 +168,7 @@
The light positions have four entries: X,Y and Z. The 4th entry is the W
value for the so-called homogeneous coordinates. If W is 0 then the point
lies in infinity and the beam meets the point X, Y, Z. Consult the OpenGL
-Reference Manual for further informations.
+Reference Manual for further information.
The value for SHINING (= GL_SHININESS) may vary from 0. to 128.
|