INTEGRATION: CWS helpcontentbeta (1.1.2); FILE MERGED

2004/09/16 11:45:28 fpe 1.1.2.1: Regular Update
author: Rüdiger Timm <rt@openoffice.org> 2004-11-26 14:03:27 +0000
committer: Rüdiger Timm <rt@openoffice.org> 2004-11-26 14:03:27 +0000
commit: 0aaf59583ee2ff250a087c2272e97a98e929e74a (patch)
tree: 6b128260059a9ee7ddbddaf68534c69d5de2c550
parent: 3385893d68adb629f4476e3738672c28e3a637c3 (diff)
5 files changed, 181 insertions, 169 deletions
diff --git a/helpcontent2/source/text/sbasic/shared/03070600.xhp b/helpcontent2/source/text/sbasic/shared/03070600.xhp
index 8511da6e58..6649fe975d 100755
--- a/helpcontent2/source/text/sbasic/shared/03070600.xhp
+++ b/helpcontent2/source/text/sbasic/shared/03070600.xhp
@@ -52,39 +52,43 @@
  *  Contributor(s): _______________________________________
  *
  *
- ************************************************************************--><helpdocument version="1.0">
+ ************************************************************************-->
+	
+<helpdocument version="1.0">
 <meta>
 <topic id="textsbasicshared03070600xml" indexer="include" status="PUBLISH">
-<title xml-lang="en-US" id="tit">Mod-Operator [Runtime]</title>
+<title id="tit" xml-lang="en-US">Mod-Operator [Runtime]</title>
 <filename>/text/sbasic/shared/03070600.xhp</filename>
 </topic>
 <history>
 <created date="2003-10-31T00:00:00">Sun Microsystems, Inc.</created>
-<lastedited date="2003-10-31T00:00:00">converted from old format - fpe</lastedited>
+<lastedited date="2004-08-24T13:35:39">converted from old format - fpe</lastedited>
 </history>
 </meta>
 <body>
-  
-  
-  <section id="mod">
-  <bookmark xml-lang="en-US" branch="index" id="bm_id3150669"><bookmark_value>MOD;mathematical operators</bookmark_value></bookmark><paragraph id="hd_id3150669" role="heading" level="1" oldref="1" l10n="U" xml-lang="en-US"><link href="text/sbasic/shared/03070600.xhp" name="Mod-Operator [Runtime]">Mod-Operator [Runtime]</link></paragraph>
-  <paragraph role="paragraph" id="par_id3148686" l10n="U" xml-lang="en-US" oldref="2">Returns the integer remainder of a division.</paragraph>
-  </section>
-  <paragraph role="heading" level="2" id="hd_id3146795" l10n="U" xml-lang="en-US" oldref="3">Syntax:</paragraph>
-  <paragraph role="paragraph" id="par_id3147560" l10n="U" xml-lang="en-US" oldref="4">Result = Expression1 MOD Expression2</paragraph>
-  <paragraph role="heading" level="2" id="hd_id3149657" l10n="U" xml-lang="en-US" oldref="5">Return value:</paragraph>
-  <paragraph role="paragraph" id="par_id3153380" l10n="U" xml-lang="en-US" oldref="6">Integer</paragraph>
-  <paragraph role="heading" level="2" id="hd_id3154365" l10n="U" xml-lang="en-US" oldref="7">Parameters:</paragraph>
-  <paragraph l10n="U" role="paragraph" id="par_id3145172" xml-lang="en-US" oldref="8"><emph>Result:</emph> Any numeric variable that contains the result of the MOD operation.</paragraph>
-  <paragraph l10n="U" role="paragraph" id="par_id3151042" xml-lang="en-US" oldref="9"><emph>Expression1, Expression2:</emph> Any numeric expressions that you want to divide.</paragraph>
-  <paragraph role="heading" level="2" id="hd_id3147287" l10n="U" xml-lang="en-US" oldref="10">Example:</paragraph>
-  <paragraph role="paragraph" id="par_id3153770" l10n="U" xml-lang="en-US" oldref="11">sub ExampleMod</paragraph>
-  <paragraph role="paragraph" id="par_id3161832" l10n="U" xml-lang="en-US" oldref="12">print 10 mod 2.5 REM returns 0</paragraph>
-  <paragraph role="paragraph" id="par_id3146922" l10n="U" xml-lang="en-US" oldref="13">print 10 / 2.5 REM returns 4</paragraph>
-  <paragraph role="paragraph" id="par_id3145273" l10n="U" xml-lang="en-US" oldref="14">print 10 mod 5 REM returns 0</paragraph>
-  <paragraph role="paragraph" id="par_id3150011" l10n="U" xml-lang="en-US" oldref="15">print 10 / 5 REM returns 2</paragraph>
-  <paragraph role="paragraph" id="par_id3149483" l10n="U" xml-lang="en-US" oldref="16">print 5 mod 10 REM returns 5</paragraph>
-  <paragraph role="paragraph" id="par_id3151114" l10n="U" xml-lang="en-US" oldref="17">print 5 / 10 REM returns 0.5</paragraph>
-  <paragraph role="paragraph" id="par_id3154013" l10n="U" xml-lang="en-US" oldref="18">end sub</paragraph>
- </body>
+<section id="mod">
+<bookmark xml-lang="en-US" branch="index" id="bm_id3150669"><bookmark_value>MOD  operator (mathematical)</bookmark_value>
+</bookmark>
+<paragraph role="heading" id="hd_id3150669" xml-lang="en-US" level="1" l10n="U" oldref="1"><link href="text/sbasic/shared/03070600.xhp" name="Mod-Operator [Runtime]">Mod Operator [Runtime]</link></paragraph>
+<paragraph role="paragraph" id="par_id3148686" xml-lang="en-US" l10n="U" oldref="2">Returns the integer remainder of a division.</paragraph>
+</section>
+<paragraph role="heading" id="hd_id3146795" xml-lang="en-US" level="2" l10n="U" oldref="3">Syntax:</paragraph>
+<paragraph role="paragraph" id="par_id3147560" xml-lang="en-US" l10n="U" oldref="4">Result = Expression1 MOD Expression2</paragraph>
+<paragraph role="heading" id="hd_id3149657" xml-lang="en-US" level="2" l10n="U" oldref="5">Return value:</paragraph>
+<paragraph role="paragraph" id="par_id3153380" xml-lang="en-US" l10n="U" oldref="6">Integer</paragraph>
+<paragraph role="heading" id="hd_id3154365" xml-lang="en-US" level="2" l10n="U" oldref="7">Parameters:</paragraph>
+<paragraph role="paragraph" id="par_id3145172" xml-lang="en-US" l10n="U" oldref="8">
+<emph>Result:</emph> Any numeric variable that contains the result of the MOD operation.</paragraph>
+<paragraph role="paragraph" id="par_id3151042" xml-lang="en-US" l10n="U" oldref="9">
+<emph>Expression1, Expression2:</emph> Any numeric expressions that you want to divide.</paragraph>
+<paragraph role="heading" id="hd_id3147287" xml-lang="en-US" level="2" l10n="U" oldref="10">Example:</paragraph>
+<paragraph role="paragraph" id="par_id3153770" xml-lang="en-US" l10n="U" oldref="11">sub ExampleMod</paragraph>
+<paragraph role="paragraph" id="par_id3161832" xml-lang="en-US" l10n="U" oldref="12">print 10 mod 2.5 REM returns 0</paragraph>
+<paragraph role="paragraph" id="par_id3146922" xml-lang="en-US" l10n="U" oldref="13">print 10 / 2.5 REM returns 4</paragraph>
+<paragraph role="paragraph" id="par_id3145273" xml-lang="en-US" l10n="U" oldref="14">print 10 mod 5 REM returns 0</paragraph>
+<paragraph role="paragraph" id="par_id3150011" xml-lang="en-US" l10n="U" oldref="15">print 10 / 5 REM returns 2</paragraph>
+<paragraph role="paragraph" id="par_id3149483" xml-lang="en-US" l10n="U" oldref="16">print 5 mod 10 REM returns 5</paragraph>
+<paragraph role="paragraph" id="par_id3151114" xml-lang="en-US" l10n="U" oldref="17">print 5 / 10 REM returns 0.5</paragraph>
+<paragraph role="paragraph" id="par_id3154013" xml-lang="en-US" l10n="U" oldref="18">end sub</paragraph>
+</body>
 </helpdocument>
diff --git a/helpcontent2/source/text/sbasic/shared/03080101.xhp b/helpcontent2/source/text/sbasic/shared/03080101.xhp
index c90baacb71..e00a65ca16 100755
--- a/helpcontent2/source/text/sbasic/shared/03080101.xhp
+++ b/helpcontent2/source/text/sbasic/shared/03080101.xhp
@@ -52,49 +52,51 @@
  *  Contributor(s): _______________________________________
  *
  *
- ************************************************************************--><helpdocument version="1.0">
+ ************************************************************************-->
+	
+<helpdocument version="1.0">
 <meta>
 <topic id="textsbasicshared03080101xml" indexer="include" status="PUBLISH">
-<title xml-lang="en-US" id="tit">Atn Function [Runtime]</title>
+<title id="tit" xml-lang="en-US">Atn Function [Runtime]</title>
 <filename>/text/sbasic/shared/03080101.xhp</filename>
 </topic>
 <history>
 <created date="2003-10-31T00:00:00">Sun Microsystems, Inc.</created>
-<lastedited date="2003-10-31T00:00:00">converted from old format - fpe</lastedited>
+<lastedited date="2004-08-24T09:41:00">converted from old format - fpe</lastedited>
 </history>
 </meta>
 <body>
-  
-  
-  <section id="atn">
-  <bookmark xml-lang="en-US" branch="index" id="bm_id3150616"><bookmark_value>Atn;function</bookmark_value></bookmark><paragraph id="hd_id3150616" role="heading" level="1" oldref="1" l10n="U" xml-lang="en-US"><link href="text/sbasic/shared/03080101.xhp" name="Atn Function [Runtime]">Atn Function [Runtime]</link></paragraph>
-  <paragraph role="paragraph" id="par_id3149346" l10n="U" xml-lang="en-US" oldref="2">Trigonometric function that returns the arctangent of a numeric expression. The return value is in the range -Pi/2 to +Pi/2.</paragraph>
-  </section>
-  <paragraph role="paragraph" id="par_id3143271" l10n="U" xml-lang="en-US" oldref="3">The arctangent is the inverse of the tangent function. The Atn Function returns the angle &quot;Alpha&quot;, expressed in radians, using the tangent of this angle. The function can also return the angle &quot;Alpha&quot; by comparing the ratio of the length of the side that is opposite of the angle to the length of the side that is adjacent to the angle in a right-angled triangle.</paragraph>
-  <paragraph role="paragraph" id="par_id3145315" l10n="U" xml-lang="en-US" oldref="4">Atn(side opposite the angle/side adjacent to angle)= Alpha</paragraph>
-  <paragraph role="heading" level="2" id="hd_id3149669" l10n="U" xml-lang="en-US" oldref="5">Syntax:</paragraph>
-  <paragraph role="paragraph" id="par_id3148947" l10n="U" xml-lang="en-US" oldref="6">Atn (Number)</paragraph>
-  <paragraph role="heading" level="2" id="hd_id3148664" l10n="U" xml-lang="en-US" oldref="7">Return value:</paragraph>
-  <paragraph role="paragraph" id="par_id3150359" l10n="U" xml-lang="en-US" oldref="8">Double</paragraph>
-  <paragraph role="heading" level="2" id="hd_id3148798" l10n="U" xml-lang="en-US" oldref="9">Parameters:</paragraph>
-  <paragraph l10n="U" role="paragraph" id="par_id3156212" xml-lang="en-US" oldref="10"><emph>Number:</emph> Any numerical expression that represents the ratio of two sides of a right triangle. The Atn function returns the corresponding angle in radians (arctangent).</paragraph>
-  <paragraph role="paragraph" id="par_id3153192" l10n="U" xml-lang="en-US" oldref="11">To convert radians to degrees, multiply radians by 180/pi.</paragraph>
-  <paragraph role="paragraph" id="par_id3147230" l10n="U" xml-lang="en-US" oldref="12">degree=(radian*180)/pi</paragraph>
-  <paragraph role="paragraph" id="par_id3125864" l10n="U" xml-lang="en-US" oldref="13">radian=(degree*pi)/180</paragraph>
-  <paragraph role="paragraph" id="par_id3159252" l10n="U" xml-lang="en-US" oldref="14">Pi is here the fixed circle constant with the rounded value 3.14159.</paragraph>
-  <embed href="text/sbasic/shared/00000003.xhp#errorcode"/>
-  <embed href="text/sbasic/shared/00000003.xhp#err5"/>
-  <paragraph role="heading" level="2" id="hd_id3153142" l10n="U" xml-lang="en-US" oldref="15">Example:</paragraph>
-  <paragraph role="paragraph" id="par_id3146985" l10n="U" xml-lang="en-US" oldref="16">REM The following example calculates for a right-angled triangle</paragraph>
-  <paragraph role="paragraph" id="par_id3145750" l10n="U" xml-lang="en-US" oldref="17">REM the angle Alpha from the tangent of the angle Alpha:</paragraph>
-  <paragraph role="paragraph" id="par_id3146975" l10n="U" xml-lang="en-US" oldref="18">Sub ExampleATN</paragraph>
-  <paragraph role="paragraph" id="par_id3151112" l10n="U" xml-lang="en-US" oldref="19">REM rounded Pi = 3.14159 is a predefined constant</paragraph>
-  <paragraph role="paragraph" id="par_id3159156" l10n="U" xml-lang="en-US" oldref="20">Dim d1 As Double</paragraph>
-  <paragraph role="paragraph" id="par_id3147435" l10n="U" xml-lang="en-US" oldref="21">Dim d2 As Double</paragraph>
-  <paragraph role="paragraph" id="par_id3149262" l10n="U" xml-lang="en-US" oldref="22">d1 = InputBox$ (&quot;Enter the length of the side adjacent to the angle: &quot;,&quot;Adjacent&quot;)</paragraph>
-  <paragraph role="paragraph" id="par_id3149482" l10n="U" xml-lang="en-US" oldref="23">d2 = InputBox$ (&quot;Enter the length of the side opposite the angle: &quot;,&quot;Opposite&quot;)</paragraph>
-  <paragraph role="paragraph" id="par_id3155415" l10n="U" xml-lang="en-US" oldref="24">Print &quot;The Alpha angle is&quot;; (atn (d2/d1) * 180 / Pi); &quot; degrees&quot;</paragraph>
-  <paragraph role="paragraph" id="par_id3149959" l10n="U" xml-lang="en-US" oldref="25">End Sub</paragraph>
-  
- </body>
+<section id="atn">
+<bookmark xml-lang="en-US" branch="index" id="bm_id3150616"><bookmark_value>Atn function</bookmark_value>
+</bookmark>
+<paragraph role="heading" id="hd_id3150616" xml-lang="en-US" level="1" l10n="U" oldref="1"><link href="text/sbasic/shared/03080101.xhp" name="Atn Function [Runtime]">Atn Function [Runtime]</link></paragraph>
+<paragraph role="paragraph" id="par_id3149346" xml-lang="en-US" l10n="U" oldref="2">Trigonometric function that returns the arctangent of a numeric expression. The return value is in the range -Pi/2 to +Pi/2.</paragraph>
+</section>
+<paragraph role="paragraph" id="par_id3143271" xml-lang="en-US" l10n="U" oldref="3">The arctangent is the inverse of the tangent function. The Atn Function returns the angle "Alpha", expressed in radians, using the tangent of this angle. The function can also return the angle "Alpha" by comparing the ratio of the length of the side that is opposite of the angle to the length of the side that is adjacent to the angle in a right-angled triangle.</paragraph>
+<paragraph role="paragraph" id="par_id3145315" xml-lang="en-US" l10n="U" oldref="4">Atn(side opposite the angle/side adjacent to angle)= Alpha</paragraph>
+<paragraph role="heading" id="hd_id3149669" xml-lang="en-US" level="2" l10n="U" oldref="5">Syntax:</paragraph>
+<paragraph role="paragraph" id="par_id3148947" xml-lang="en-US" l10n="U" oldref="6">Atn (Number)</paragraph>
+<paragraph role="heading" id="hd_id3148664" xml-lang="en-US" level="2" l10n="U" oldref="7">Return value:</paragraph>
+<paragraph role="paragraph" id="par_id3150359" xml-lang="en-US" l10n="U" oldref="8">Double</paragraph>
+<paragraph role="heading" id="hd_id3148798" xml-lang="en-US" level="2" l10n="U" oldref="9">Parameters:</paragraph>
+<paragraph role="paragraph" id="par_id3156212" xml-lang="en-US" l10n="U" oldref="10">
+<emph>Number:</emph> Any numerical expression that represents the ratio of two sides of a right triangle. The Atn function returns the corresponding angle in radians (arctangent).</paragraph>
+<paragraph role="paragraph" id="par_id3153192" xml-lang="en-US" l10n="U" oldref="11">To convert radians to degrees, multiply radians by 180/pi.</paragraph>
+<paragraph role="paragraph" id="par_id3147230" xml-lang="en-US" l10n="U" oldref="12">degree=(radian*180)/pi</paragraph>
+<paragraph role="paragraph" id="par_id3125864" xml-lang="en-US" l10n="U" oldref="13">radian=(degree*pi)/180</paragraph>
+<paragraph role="paragraph" id="par_id3159252" xml-lang="en-US" l10n="U" oldref="14">Pi is here the fixed circle constant with the rounded value 3.14159.</paragraph>
+<embed href="text/sbasic/shared/00000003.xhp#errorcode"/>
+<embed href="text/sbasic/shared/00000003.xhp#err5"/>
+<paragraph role="heading" id="hd_id3153142" xml-lang="en-US" level="2" l10n="U" oldref="15">Example:</paragraph>
+<paragraph role="paragraph" id="par_id3146985" xml-lang="en-US" l10n="U" oldref="16">REM The following example calculates for a right-angled triangle</paragraph>
+<paragraph role="paragraph" id="par_id3145750" xml-lang="en-US" l10n="U" oldref="17">REM the angle Alpha from the tangent of the angle Alpha:</paragraph>
+<paragraph role="paragraph" id="par_id3146975" xml-lang="en-US" l10n="U" oldref="18">Sub ExampleATN</paragraph>
+<paragraph role="paragraph" id="par_id3151112" xml-lang="en-US" l10n="U" oldref="19">REM rounded Pi = 3.14159 is a predefined constant</paragraph>
+<paragraph role="paragraph" id="par_id3159156" xml-lang="en-US" l10n="U" oldref="20">Dim d1 As Double</paragraph>
+<paragraph role="paragraph" id="par_id3147435" xml-lang="en-US" l10n="U" oldref="21">Dim d2 As Double</paragraph>
+<paragraph role="paragraph" id="par_id3149262" xml-lang="en-US" l10n="U" oldref="22">d1 = InputBox$ ("Enter the length of the side adjacent to the angle: ","Adjacent")</paragraph>
+<paragraph role="paragraph" id="par_id3149482" xml-lang="en-US" l10n="U" oldref="23">d2 = InputBox$ ("Enter the length of the side opposite the angle: ","Opposite")</paragraph>
+<paragraph role="paragraph" id="par_id3155415" xml-lang="en-US" l10n="U" oldref="24">Print "The Alpha angle is"; (atn (d2/d1) * 180 / Pi); " degrees"</paragraph>
+<paragraph role="paragraph" id="par_id3149959" xml-lang="en-US" l10n="U" oldref="25">End Sub</paragraph>
+</body>
 </helpdocument>
diff --git a/helpcontent2/source/text/sbasic/shared/03080102.xhp b/helpcontent2/source/text/sbasic/shared/03080102.xhp
index 974b6708fa..793ffa2ea9 100755
--- a/helpcontent2/source/text/sbasic/shared/03080102.xhp
+++ b/helpcontent2/source/text/sbasic/shared/03080102.xhp
@@ -52,48 +52,50 @@
  *  Contributor(s): _______________________________________
  *
  *
- ************************************************************************--><helpdocument version="1.0">
+ ************************************************************************-->
+	
+<helpdocument version="1.0">
 <meta>
 <topic id="textsbasicshared03080102xml" indexer="include" status="PUBLISH">
-<title xml-lang="en-US" id="tit">Cos Function [Runtime]</title>
+<title id="tit" xml-lang="en-US">Cos Function [Runtime]</title>
 <filename>/text/sbasic/shared/03080102.xhp</filename>
 </topic>
 <history>
 <created date="2003-10-31T00:00:00">Sun Microsystems, Inc.</created>
-<lastedited date="2003-10-31T00:00:00">converted from old format - fpe</lastedited>
+<lastedited date="2004-08-24T11:09:53">converted from old format - fpe</lastedited>
 </history>
 </meta>
 <body>
-  
-  
-  <section id="cos">
-  <bookmark xml-lang="en-US" branch="index" id="bm_id3154923"><bookmark_value>Cos;function</bookmark_value></bookmark><paragraph id="hd_id3154923" role="heading" level="1" oldref="1" l10n="U" xml-lang="en-US"><link href="text/sbasic/shared/03080102.xhp" name="Cos Function [Runtime]">Cos Function [Runtime]</link></paragraph>
-  <paragraph role="paragraph" id="par_id3159413" l10n="U" xml-lang="en-US" oldref="2">Calculates the cosine of an angle. The angle is specified in radians. The result lies between -1 and 1.</paragraph>
-  </section>
-  <paragraph role="paragraph" id="par_id3150358" l10n="U" xml-lang="en-US" oldref="3">Using the angle Alpha, the Cos-Function calculates the ratio of the length of the side that is adjacent to the angle, divided by the length of the hypotenuse in a right-angled triangle.</paragraph>
-  <paragraph role="paragraph" id="par_id3154141" l10n="U" xml-lang="en-US" oldref="4">Cos(Alpha) = Adjacent/Hypotenuse</paragraph>
-  <paragraph role="heading" level="2" id="hd_id3154125" l10n="U" xml-lang="en-US" oldref="5">Syntax:</paragraph>
-  <paragraph role="paragraph" id="par_id3145172" l10n="U" xml-lang="en-US" oldref="6">Cos (Number)</paragraph>
-  <paragraph role="heading" level="2" id="hd_id3156214" l10n="U" xml-lang="en-US" oldref="7">Return value:</paragraph>
-  <paragraph role="paragraph" id="par_id3150449" l10n="U" xml-lang="en-US" oldref="8">Double</paragraph>
-  <paragraph role="heading" level="2" id="hd_id3153969" l10n="U" xml-lang="en-US" oldref="9">Parameters:</paragraph>
-  <paragraph l10n="U" role="paragraph" id="par_id3153770" xml-lang="en-US" oldref="10"><emph>Number:</emph> Numeric expression that specifies an angle in radians that you want to calculate the cosine for.</paragraph>
-  <paragraph role="paragraph" id="par_id3145749" l10n="U" xml-lang="en-US" oldref="11">To convert degrees to radians, multiply degrees by pi/180. To convert radians to degrees, multiply radians by 180/pi.</paragraph>
-  <paragraph role="paragraph" id="par_id3149664" l10n="U" xml-lang="en-US" oldref="12">degree=(radian*180)/pi</paragraph>
-  <paragraph role="paragraph" id="par_id3146985" l10n="U" xml-lang="en-US" oldref="13">radian=(degree*pi)/180</paragraph>
-  <paragraph role="paragraph" id="par_id3152885" l10n="U" xml-lang="en-US" oldref="14">Pi is here the fixed circle constant with the rounded value 3.14159...</paragraph>
-  <embed href="text/sbasic/shared/00000003.xhp#errorcode"/>
-  <embed href="text/sbasic/shared/00000003.xhp#err5"/>
-  <paragraph role="heading" level="2" id="hd_id3153951" l10n="U" xml-lang="en-US" oldref="15">Example:</paragraph>
-  <paragraph role="paragraph" id="par_id3155855" l10n="U" xml-lang="en-US" oldref="16">REM The following example allows for a right-angled triangle the input of</paragraph>
-  <paragraph role="paragraph" id="par_id3149484" l10n="U" xml-lang="en-US" oldref="17">REM secant and angle (in degrees) and calculates the length of the hypotenuse:</paragraph>
-  <paragraph role="paragraph" id="par_id3147428" l10n="U" xml-lang="en-US" oldref="18">Sub ExampleCosinus</paragraph>
-  <paragraph role="paragraph" id="par_id3150010" l10n="U" xml-lang="en-US" oldref="19">REM rounded Pi = 3.14159</paragraph>
-  <paragraph role="paragraph" id="par_id3149959" l10n="U" xml-lang="en-US" oldref="20">Dim d1 as Double, dAngle as Double</paragraph>
-  <paragraph role="paragraph" id="par_id3144764" l10n="U" xml-lang="en-US" oldref="21">d1 = InputBox$ (&quot;&quot;Enter the length of the adjacent side: &quot;,&quot;Adjacent&quot;)</paragraph>
-  <paragraph role="paragraph" id="par_id3154491" l10n="U" xml-lang="en-US" oldref="22">dAngle = InputBox$ (&quot;Enter the angle Alpha (in degrees): &quot;,&quot;Alpha&quot;)</paragraph>
-  <paragraph role="paragraph" id="par_id3151074" l10n="U" xml-lang="en-US" oldref="23">Print &quot;The length of the hypothenuse is&quot;; (d1 / cos (dAngle * Pi / 180))</paragraph>
-  <paragraph role="paragraph" id="par_id3149583" l10n="U" xml-lang="en-US" oldref="24">End Sub</paragraph>
-  
- </body>
+<section id="cos">
+<bookmark xml-lang="en-US" branch="index" id="bm_id3154923"><bookmark_value>Cos function</bookmark_value>
+</bookmark>
+<paragraph role="heading" id="hd_id3154923" xml-lang="en-US" level="1" l10n="U" oldref="1"><link href="text/sbasic/shared/03080102.xhp" name="Cos Function [Runtime]">Cos Function [Runtime]</link></paragraph>
+<paragraph role="paragraph" id="par_id3159413" xml-lang="en-US" l10n="U" oldref="2">Calculates the cosine of an angle. The angle is specified in radians. The result lies between -1 and 1.</paragraph>
+</section>
+<paragraph role="paragraph" id="par_id3150358" xml-lang="en-US" l10n="U" oldref="3">Using the angle Alpha, the Cos-Function calculates the ratio of the length of the side that is adjacent to the angle, divided by the length of the hypotenuse in a right-angled triangle.</paragraph>
+<paragraph role="paragraph" id="par_id3154141" xml-lang="en-US" l10n="U" oldref="4">Cos(Alpha) = Adjacent/Hypotenuse</paragraph>
+<paragraph role="heading" id="hd_id3154125" xml-lang="en-US" level="2" l10n="U" oldref="5">Syntax:</paragraph>
+<paragraph role="paragraph" id="par_id3145172" xml-lang="en-US" l10n="U" oldref="6">Cos (Number)</paragraph>
+<paragraph role="heading" id="hd_id3156214" xml-lang="en-US" level="2" l10n="U" oldref="7">Return value:</paragraph>
+<paragraph role="paragraph" id="par_id3150449" xml-lang="en-US" l10n="U" oldref="8">Double</paragraph>
+<paragraph role="heading" id="hd_id3153969" xml-lang="en-US" level="2" l10n="U" oldref="9">Parameters:</paragraph>
+<paragraph role="paragraph" id="par_id3153770" xml-lang="en-US" l10n="U" oldref="10">
+<emph>Number:</emph> Numeric expression that specifies an angle in radians that you want to calculate the cosine for.</paragraph>
+<paragraph role="paragraph" id="par_id3145749" xml-lang="en-US" l10n="U" oldref="11">To convert degrees to radians, multiply degrees by pi/180. To convert radians to degrees, multiply radians by 180/pi.</paragraph>
+<paragraph role="paragraph" id="par_id3149664" xml-lang="en-US" l10n="U" oldref="12">degree=(radian*180)/pi</paragraph>
+<paragraph role="paragraph" id="par_id3146985" xml-lang="en-US" l10n="U" oldref="13">radian=(degree*pi)/180</paragraph>
+<paragraph role="paragraph" id="par_id3152885" xml-lang="en-US" l10n="U" oldref="14">Pi is here the fixed circle constant with the rounded value 3.14159...</paragraph>
+<embed href="text/sbasic/shared/00000003.xhp#errorcode"/>
+<embed href="text/sbasic/shared/00000003.xhp#err5"/>
+<paragraph role="heading" id="hd_id3153951" xml-lang="en-US" level="2" l10n="U" oldref="15">Example:</paragraph>
+<paragraph role="paragraph" id="par_id3155855" xml-lang="en-US" l10n="U" oldref="16">REM The following example allows for a right-angled triangle the input of</paragraph>
+<paragraph role="paragraph" id="par_id3149484" xml-lang="en-US" l10n="U" oldref="17">REM secant and angle (in degrees) and calculates the length of the hypotenuse:</paragraph>
+<paragraph role="paragraph" id="par_id3147428" xml-lang="en-US" l10n="U" oldref="18">Sub ExampleCosinus</paragraph>
+<paragraph role="paragraph" id="par_id3150010" xml-lang="en-US" l10n="U" oldref="19">REM rounded Pi = 3.14159</paragraph>
+<paragraph role="paragraph" id="par_id3149959" xml-lang="en-US" l10n="U" oldref="20">Dim d1 as Double, dAngle as Double</paragraph>
+<paragraph role="paragraph" id="par_id3144764" xml-lang="en-US" l10n="U" oldref="21">d1 = InputBox$ (""Enter the length of the adjacent side: ","Adjacent")</paragraph>
+<paragraph role="paragraph" id="par_id3154491" xml-lang="en-US" l10n="U" oldref="22">dAngle = InputBox$ ("Enter the angle Alpha (in degrees): ","Alpha")</paragraph>
+<paragraph role="paragraph" id="par_id3151074" xml-lang="en-US" l10n="U" oldref="23">Print "The length of the hypothenuse is"; (d1 / cos (dAngle * Pi / 180))</paragraph>
+<paragraph role="paragraph" id="par_id3149583" xml-lang="en-US" l10n="U" oldref="24">End Sub</paragraph>
+</body>
 </helpdocument>
diff --git a/helpcontent2/source/text/sbasic/shared/03080103.xhp b/helpcontent2/source/text/sbasic/shared/03080103.xhp
index b008d610b4..2216deeb46 100755
--- a/helpcontent2/source/text/sbasic/shared/03080103.xhp
+++ b/helpcontent2/source/text/sbasic/shared/03080103.xhp
@@ -52,49 +52,51 @@
  *  Contributor(s): _______________________________________
  *
  *
- ************************************************************************--><helpdocument version="1.0">
+ ************************************************************************-->
+	
+<helpdocument version="1.0">
 <meta>
 <topic id="textsbasicshared03080103xml" indexer="include" status="PUBLISH">
-<title xml-lang="en-US" id="tit">Sin Function [Runtime]</title>
+<title id="tit" xml-lang="en-US">Sin Function [Runtime]</title>
 <filename>/text/sbasic/shared/03080103.xhp</filename>
 </topic>
 <history>
 <created date="2003-10-31T00:00:00">Sun Microsystems, Inc.</created>
-<lastedited date="2003-10-31T00:00:00">converted from old format - fpe</lastedited>
+<lastedited date="2004-08-24T14:25:31">converted from old format - fpe</lastedited>
 </history>
 </meta>
 <body>
-  
-  
-  <section id="sin">
-  <bookmark xml-lang="en-US" branch="index" id="bm_id3153896"><bookmark_value>Sin;function</bookmark_value></bookmark><paragraph id="hd_id3153896" role="heading" level="1" oldref="1" l10n="U" xml-lang="en-US"><link href="text/sbasic/shared/03080103.xhp" name="Sin Function [Runtime]">Sin Function [Runtime]</link></paragraph>
-  <paragraph role="paragraph" id="par_id3149456" l10n="U" xml-lang="en-US" oldref="2">Returns the sine of an angle. The angle is specified in radians. The result lies between -1 and 1.</paragraph>
-  </section>
-  <paragraph role="paragraph" id="par_id3153379" l10n="U" xml-lang="en-US" oldref="3">Using the angle Alpha, the Sin Function returns the ratio of the length of the opposite side of an angle to the length of the hypotenuse in a right-angled triangle.</paragraph>
-  <paragraph role="paragraph" id="par_id3148798" l10n="U" xml-lang="en-US" oldref="4">Sin(Alpha) = side opposite the angle/hypotenuse</paragraph>
-  <paragraph role="heading" level="2" id="hd_id3147230" l10n="U" xml-lang="en-US" oldref="5">Syntax:</paragraph>
-  <paragraph role="paragraph" id="par_id3154909" l10n="U" xml-lang="en-US" oldref="6">Sin (Number)</paragraph>
-  <paragraph role="heading" level="2" id="hd_id3156214" l10n="U" xml-lang="en-US" oldref="7">Return value:</paragraph>
-  <paragraph role="paragraph" id="par_id3150870" l10n="U" xml-lang="en-US" oldref="8">Double</paragraph>
-  <paragraph role="heading" level="2" id="hd_id3155132" l10n="U" xml-lang="en-US" oldref="9">Parameters:</paragraph>
-  <paragraph l10n="U" role="paragraph" id="par_id3145786" xml-lang="en-US" oldref="10"><emph>Number:</emph> Numeric expression that defines the angle in radians that you want to calculate the sine for.</paragraph>
-  <paragraph role="paragraph" id="par_id3155413" l10n="U" xml-lang="en-US" oldref="11">To convert degrees to radians, multiply degrees by Pi/180, and to convert radians to degrees, multiply radians by 180/Pi.</paragraph>
-  <paragraph role="paragraph" id="par_id3149664" l10n="U" xml-lang="en-US" oldref="12">grad=(radiant*180)/pi</paragraph>
-  <paragraph role="paragraph" id="par_id3153143" l10n="U" xml-lang="en-US" oldref="13">radiant=(grad*pi)/180</paragraph>
-  <paragraph role="paragraph" id="par_id3151112" l10n="U" xml-lang="en-US" oldref="14">Pi is approximately 3.141593.</paragraph>
-  <embed href="text/sbasic/shared/00000003.xhp#errorcode"/>
-  <embed href="text/sbasic/shared/00000003.xhp#err5"/>
-  <paragraph role="heading" level="2" id="hd_id3163712" l10n="U" xml-lang="en-US" oldref="15">Example:</paragraph>
-  <paragraph role="paragraph" id="par_id3149482" l10n="U" xml-lang="en-US" oldref="16">REM In this example, the following entry is possible for a right-angled triangle:</paragraph>
-  <paragraph role="paragraph" id="par_id3148577" l10n="U" xml-lang="en-US" oldref="17">REM The side opposite the angle and the angle (in degrees) to calculate the length of the hypotenuse:</paragraph>
-  <paragraph role="paragraph" id="par_id3152941" l10n="U" xml-lang="en-US" oldref="18">Sub ExampleSine</paragraph>
-  <paragraph role="paragraph" id="par_id3150011" l10n="U" xml-lang="en-US" oldref="19">REM Pi = 3.1415926 is a predefined variable</paragraph>
-  <paragraph role="paragraph" id="par_id3153159" l10n="U" xml-lang="en-US" oldref="20">Dim d1 as Double</paragraph>
-  <paragraph role="paragraph" id="par_id3154491" l10n="U" xml-lang="en-US" oldref="21">Dim dAlpha as Double</paragraph>
-  <paragraph role="paragraph" id="par_id3145251" l10n="U" xml-lang="en-US" oldref="22">d1  = InputBox$ (&quot;Enter the length of the opposite side: &quot;,&quot;Opposite Side&quot;)</paragraph>
-  <paragraph role="paragraph" id="par_id3148456" l10n="U" xml-lang="en-US" oldref="23">dAlpha = InputBox$ (&quot;Enter the angle Alpha (in degrees): &quot;,&quot;Alpha&quot;)</paragraph>
-  <paragraph role="paragraph" id="par_id3153877" l10n="U" xml-lang="en-US" oldref="24">Print &quot;The length of the hypotenuse is&quot;; (d1 / sin (dAlpha * Pi / 180))</paragraph>
-  <paragraph role="paragraph" id="par_id3150717" l10n="U" xml-lang="en-US" oldref="25">End Sub</paragraph>
-  
- </body>
+<section id="sin">
+<bookmark xml-lang="en-US" branch="index" id="bm_id3153896"><bookmark_value>Sin function</bookmark_value>
+</bookmark>
+<paragraph role="heading" id="hd_id3153896" xml-lang="en-US" level="1" l10n="U" oldref="1"><link href="text/sbasic/shared/03080103.xhp" name="Sin Function [Runtime]">Sin Function [Runtime]</link></paragraph>
+<paragraph role="paragraph" id="par_id3149456" xml-lang="en-US" l10n="U" oldref="2">Returns the sine of an angle. The angle is specified in radians. The result lies between -1 and 1.</paragraph>
+</section>
+<paragraph role="paragraph" id="par_id3153379" xml-lang="en-US" l10n="U" oldref="3">Using the angle Alpha, the Sin Function returns the ratio of the length of the opposite side of an angle to the length of the hypotenuse in a right-angled triangle.</paragraph>
+<paragraph role="paragraph" id="par_id3148798" xml-lang="en-US" l10n="U" oldref="4">Sin(Alpha) = side opposite the angle/hypotenuse</paragraph>
+<paragraph role="heading" id="hd_id3147230" xml-lang="en-US" level="2" l10n="U" oldref="5">Syntax:</paragraph>
+<paragraph role="paragraph" id="par_id3154909" xml-lang="en-US" l10n="U" oldref="6">Sin (Number)</paragraph>
+<paragraph role="heading" id="hd_id3156214" xml-lang="en-US" level="2" l10n="U" oldref="7">Return value:</paragraph>
+<paragraph role="paragraph" id="par_id3150870" xml-lang="en-US" l10n="U" oldref="8">Double</paragraph>
+<paragraph role="heading" id="hd_id3155132" xml-lang="en-US" level="2" l10n="U" oldref="9">Parameters:</paragraph>
+<paragraph role="paragraph" id="par_id3145786" xml-lang="en-US" l10n="U" oldref="10">
+<emph>Number:</emph> Numeric expression that defines the angle in radians that you want to calculate the sine for.</paragraph>
+<paragraph role="paragraph" id="par_id3155413" xml-lang="en-US" l10n="U" oldref="11">To convert degrees to radians, multiply degrees by Pi/180, and to convert radians to degrees, multiply radians by 180/Pi.</paragraph>
+<paragraph role="paragraph" id="par_id3149664" xml-lang="en-US" l10n="U" oldref="12">grad=(radiant*180)/pi</paragraph>
+<paragraph role="paragraph" id="par_id3153143" xml-lang="en-US" l10n="U" oldref="13">radiant=(grad*pi)/180</paragraph>
+<paragraph role="paragraph" id="par_id3151112" xml-lang="en-US" l10n="U" oldref="14">Pi is approximately 3.141593.</paragraph>
+<embed href="text/sbasic/shared/00000003.xhp#errorcode"/>
+<embed href="text/sbasic/shared/00000003.xhp#err5"/>
+<paragraph role="heading" id="hd_id3163712" xml-lang="en-US" level="2" l10n="U" oldref="15">Example:</paragraph>
+<paragraph role="paragraph" id="par_id3149482" xml-lang="en-US" l10n="U" oldref="16">REM In this example, the following entry is possible for a right-angled triangle:</paragraph>
+<paragraph role="paragraph" id="par_id3148577" xml-lang="en-US" l10n="U" oldref="17">REM The side opposite the angle and the angle (in degrees) to calculate the length of the hypotenuse:</paragraph>
+<paragraph role="paragraph" id="par_id3152941" xml-lang="en-US" l10n="U" oldref="18">Sub ExampleSine</paragraph>
+<paragraph role="paragraph" id="par_id3150011" xml-lang="en-US" l10n="U" oldref="19">REM Pi = 3.1415926 is a predefined variable</paragraph>
+<paragraph role="paragraph" id="par_id3153159" xml-lang="en-US" l10n="U" oldref="20">Dim d1 as Double</paragraph>
+<paragraph role="paragraph" id="par_id3154491" xml-lang="en-US" l10n="U" oldref="21">Dim dAlpha as Double</paragraph>
+<paragraph role="paragraph" id="par_id3145251" xml-lang="en-US" l10n="U" oldref="22">d1 = InputBox$ ("Enter the length of the opposite side: ","Opposite Side")</paragraph>
+<paragraph role="paragraph" id="par_id3148456" xml-lang="en-US" l10n="U" oldref="23">dAlpha = InputBox$ ("Enter the angle Alpha (in degrees): ","Alpha")</paragraph>
+<paragraph role="paragraph" id="par_id3153877" xml-lang="en-US" l10n="U" oldref="24">Print "The length of the hypotenuse is"; (d1 / sin (dAlpha * Pi / 180))</paragraph>
+<paragraph role="paragraph" id="par_id3150717" xml-lang="en-US" l10n="U" oldref="25">End Sub</paragraph>
+</body>
 </helpdocument>
diff --git a/helpcontent2/source/text/sbasic/shared/03080104.xhp b/helpcontent2/source/text/sbasic/shared/03080104.xhp
index 44ba0c1cd5..e87cbce16a 100755
--- a/helpcontent2/source/text/sbasic/shared/03080104.xhp
+++ b/helpcontent2/source/text/sbasic/shared/03080104.xhp
@@ -52,49 +52,51 @@
  *  Contributor(s): _______________________________________
  *
  *
- ************************************************************************--><helpdocument version="1.0">
+ ************************************************************************-->
+	
+<helpdocument version="1.0">
 <meta>
 <topic id="textsbasicshared03080104xml" indexer="include" status="PUBLISH">
-<title xml-lang="en-US" id="tit">Tan Function [Runtime]</title>
+<title id="tit" xml-lang="en-US">Tan Function [Runtime]</title>
 <filename>/text/sbasic/shared/03080104.xhp</filename>
 </topic>
 <history>
 <created date="2003-10-31T00:00:00">Sun Microsystems, Inc.</created>
-<lastedited date="2003-10-31T00:00:00">converted from old format - fpe</lastedited>
+<lastedited date="2004-08-24T14:35:14">converted from old format - fpe</lastedited>
 </history>
 </meta>
 <body>
-  
-  
-  <section id="tan">
-  <bookmark xml-lang="en-US" branch="index" id="bm_id3148550"><bookmark_value>Tan;function</bookmark_value></bookmark><paragraph id="hd_id3148550" role="heading" level="1" oldref="1" l10n="U" xml-lang="en-US"><link href="text/sbasic/shared/03080104.xhp" name="Tan Function [Runtime]">Tan Function [Runtime]</link></paragraph>
-  <paragraph role="paragraph" id="par_id3148663" l10n="U" xml-lang="en-US" oldref="2">Determines the tangent of an angle. The angle is returned in radians.</paragraph>
-  </section>
-  <paragraph role="paragraph" id="par_id3153379" l10n="U" xml-lang="en-US" oldref="3">Using the angle Alpha, the Tan Function calculates the ratio of the length of the side opposite the angle to the length of the side adjacent to the angle in a right-angled triangle.</paragraph>
-  <paragraph role="paragraph" id="par_id3154366" l10n="U" xml-lang="en-US" oldref="4">Tan(Alpha) = side opposite the angle/side adjacent to angle</paragraph>
-  <paragraph role="heading" level="2" id="hd_id3145174" l10n="U" xml-lang="en-US" oldref="5">Syntax:</paragraph>
-  <paragraph role="paragraph" id="par_id3151042" l10n="U" xml-lang="en-US" oldref="6">Tan (Number)</paragraph>
-  <paragraph role="heading" level="2" id="hd_id3156214" l10n="U" xml-lang="en-US" oldref="7">Return value:</paragraph>
-  <paragraph role="paragraph" id="par_id3156281" l10n="U" xml-lang="en-US" oldref="8">Double</paragraph>
-  <paragraph role="heading" level="2" id="hd_id3155132" l10n="U" xml-lang="en-US" oldref="9">Parameters:</paragraph>
-  <paragraph l10n="U" role="paragraph" id="par_id3145786" xml-lang="en-US" oldref="10"><emph>Number:</emph> Any numeric expression that you want to calculate the tangent for (in radians).</paragraph>
-  <paragraph role="paragraph" id="par_id3153728" l10n="U" xml-lang="en-US" oldref="11">To convert degrees to radians, multiply by Pi/180. To convert radians to degrees, multiply by 180/Pi.</paragraph>
-  <paragraph role="paragraph" id="par_id3155414" l10n="U" xml-lang="en-US" oldref="12">grad=(radiant*180)/pi</paragraph>
-  <paragraph role="paragraph" id="par_id3146975" l10n="U" xml-lang="en-US" oldref="13">radiant=(grad*pi)/180</paragraph>
-  <paragraph role="paragraph" id="par_id3147434" l10n="U" xml-lang="en-US" oldref="14">Pi is approximately 3.141593.</paragraph>
-  <embed href="text/sbasic/shared/00000003.xhp#errorcode"/>
-  <embed href="text/sbasic/shared/00000003.xhp#err5"/>
-  <paragraph role="heading" level="2" id="hd_id3149483" l10n="U" xml-lang="en-US" oldref="15">Example:</paragraph>
-  <paragraph role="paragraph" id="par_id3148646" l10n="U" xml-lang="en-US" oldref="16">REM In this example, the following entry is possible for a right-angled triangle:</paragraph>
-  <paragraph role="paragraph" id="par_id3150012" l10n="U" xml-lang="en-US" oldref="17">REM The side opposite the angle and the angle (in degrees) to calculate the length of the side adjacent to the angle:</paragraph>
-  <paragraph role="paragraph" id="par_id3151115" l10n="U" xml-lang="en-US" oldref="18">Sub ExampleTangens</paragraph>
-  <paragraph role="paragraph" id="par_id3153158" l10n="U" xml-lang="en-US" oldref="19">REM Pi = 3.1415926 is a pre-defined variable</paragraph>
-  <paragraph role="paragraph" id="par_id3145800" l10n="U" xml-lang="en-US" oldref="20">Dim d1 as Double</paragraph>
-  <paragraph role="paragraph" id="par_id3150417" l10n="U" xml-lang="en-US" oldref="21">Dim dAlpha as Double</paragraph>
-  <paragraph role="paragraph" id="par_id3145252" l10n="U" xml-lang="en-US" oldref="22">d1 = InputBox$ (&quot;Enter the length of the side opposite the angle: &quot;,&quot;opposite&quot;)</paragraph>
-  <paragraph role="paragraph" id="par_id3149582" l10n="U" xml-lang="en-US" oldref="23">dAlpha = InputBox$ (&quot;Enter the Alpha angle (in degrees): &quot;,&quot;Alpha&quot;)</paragraph>
-  <paragraph role="paragraph" id="par_id3154016" l10n="U" xml-lang="en-US" oldref="24">Print &quot;the length of the side adjacent the angle is&quot;; (d1 / tan (dAlpha * Pi / 180))</paragraph>
-  <paragraph role="paragraph" id="par_id3154731" l10n="U" xml-lang="en-US" oldref="25">End Sub</paragraph>
-  
- </body>
+<section id="tan">
+<bookmark xml-lang="en-US" branch="index" id="bm_id3148550"><bookmark_value>Tan function</bookmark_value>
+</bookmark>
+<paragraph role="heading" id="hd_id3148550" xml-lang="en-US" level="1" l10n="U" oldref="1"><link href="text/sbasic/shared/03080104.xhp" name="Tan Function [Runtime]">Tan Function [Runtime]</link></paragraph>
+<paragraph role="paragraph" id="par_id3148663" xml-lang="en-US" l10n="U" oldref="2">Determines the tangent of an angle. The angle is returned in radians.</paragraph>
+</section>
+<paragraph role="paragraph" id="par_id3153379" xml-lang="en-US" l10n="U" oldref="3">Using the angle Alpha, the Tan Function calculates the ratio of the length of the side opposite the angle to the length of the side adjacent to the angle in a right-angled triangle.</paragraph>
+<paragraph role="paragraph" id="par_id3154366" xml-lang="en-US" l10n="U" oldref="4">Tan(Alpha) = side opposite the angle/side adjacent to angle</paragraph>
+<paragraph role="heading" id="hd_id3145174" xml-lang="en-US" level="2" l10n="U" oldref="5">Syntax:</paragraph>
+<paragraph role="paragraph" id="par_id3151042" xml-lang="en-US" l10n="U" oldref="6">Tan (Number)</paragraph>
+<paragraph role="heading" id="hd_id3156214" xml-lang="en-US" level="2" l10n="U" oldref="7">Return value:</paragraph>
+<paragraph role="paragraph" id="par_id3156281" xml-lang="en-US" l10n="U" oldref="8">Double</paragraph>
+<paragraph role="heading" id="hd_id3155132" xml-lang="en-US" level="2" l10n="U" oldref="9">Parameters:</paragraph>
+<paragraph role="paragraph" id="par_id3145786" xml-lang="en-US" l10n="U" oldref="10">
+<emph>Number:</emph> Any numeric expression that you want to calculate the tangent for (in radians).</paragraph>
+<paragraph role="paragraph" id="par_id3153728" xml-lang="en-US" l10n="U" oldref="11">To convert degrees to radians, multiply by Pi/180. To convert radians to degrees, multiply by 180/Pi.</paragraph>
+<paragraph role="paragraph" id="par_id3155414" xml-lang="en-US" l10n="U" oldref="12">grad=(radiant*180)/pi</paragraph>
+<paragraph role="paragraph" id="par_id3146975" xml-lang="en-US" l10n="U" oldref="13">radiant=(grad*pi)/180</paragraph>
+<paragraph role="paragraph" id="par_id3147434" xml-lang="en-US" l10n="U" oldref="14">Pi is approximately 3.141593.</paragraph>
+<embed href="text/sbasic/shared/00000003.xhp#errorcode"/>
+<embed href="text/sbasic/shared/00000003.xhp#err5"/>
+<paragraph role="heading" id="hd_id3149483" xml-lang="en-US" level="2" l10n="U" oldref="15">Example:</paragraph>
+<paragraph role="paragraph" id="par_id3148646" xml-lang="en-US" l10n="U" oldref="16">REM In this example, the following entry is possible for a right-angled triangle:</paragraph>
+<paragraph role="paragraph" id="par_id3150012" xml-lang="en-US" l10n="U" oldref="17">REM The side opposite the angle and the angle (in degrees) to calculate the length of the side adjacent to the angle:</paragraph>
+<paragraph role="paragraph" id="par_id3151115" xml-lang="en-US" l10n="U" oldref="18">Sub ExampleTangens</paragraph>
+<paragraph role="paragraph" id="par_id3153158" xml-lang="en-US" l10n="U" oldref="19">REM Pi = 3.1415926 is a pre-defined variable</paragraph>
+<paragraph role="paragraph" id="par_id3145800" xml-lang="en-US" l10n="U" oldref="20">Dim d1 as Double</paragraph>
+<paragraph role="paragraph" id="par_id3150417" xml-lang="en-US" l10n="U" oldref="21">Dim dAlpha as Double</paragraph>
+<paragraph role="paragraph" id="par_id3145252" xml-lang="en-US" l10n="U" oldref="22">d1 = InputBox$ ("Enter the length of the side opposite the angle: ","opposite")</paragraph>
+<paragraph role="paragraph" id="par_id3149582" xml-lang="en-US" l10n="U" oldref="23">dAlpha = InputBox$ ("Enter the Alpha angle (in degrees): ","Alpha")</paragraph>
+<paragraph role="paragraph" id="par_id3154016" xml-lang="en-US" l10n="U" oldref="24">Print "the length of the side adjacent the angle is"; (d1 / tan (dAlpha * Pi / 180))</paragraph>
+<paragraph role="paragraph" id="par_id3154731" xml-lang="en-US" l10n="U" oldref="25">End Sub</paragraph>
+</body>
 </helpdocument>
author	Rüdiger Timm <rt@openoffice.org>	2004-11-26 14:03:27 +0000
committer	Rüdiger Timm <rt@openoffice.org>	2004-11-26 14:03:27 +0000
commit	0aaf59583ee2ff250a087c2272e97a98e929e74a (patch)
tree	6b128260059a9ee7ddbddaf68534c69d5de2c550
parent	3385893d68adb629f4476e3738672c28e3a637c3 (diff)