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diff --git a/source/text/sbasic/shared/03080103.xhp b/source/text/sbasic/shared/03080103.xhp index 59118cf3c8..8115b56240 100644 --- a/source/text/sbasic/shared/03080103.xhp +++ b/source/text/sbasic/shared/03080103.xhp @@ -1,6 +1,5 @@ <?xml version="1.0" encoding="UTF-8"?> - - +<helpdocument version="1.0"> <!-- * This file is part of the LibreOffice project. * @@ -17,54 +16,60 @@ * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . - --> - -<helpdocument version="1.0"> +--> + <meta> -<topic id="textsbasicshared03080103xml" indexer="include" status="PUBLISH"> -<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> -</history> + <topic id="textsbasicshared03080103xml" indexer="include" status="PUBLISH"> + <title id="tit" xml-lang="en-US">Sin Function [Runtime]</title> + <filename>/text/sbasic/shared/03080103.xhp</filename> + </topic> </meta> + <body> + + <section id="sin"> -<bookmark xml-lang="en-US" branch="index" id="bm_id3153896"><bookmark_value>Sin function</bookmark_value> +<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> + + +<paragraph id="hd_id3153896" role="heading" level="1" xml-lang="en-US"><link href="text/sbasic/shared/03080103.xhp" name="Sin Function [Runtime]">Sin Function [Runtime]</link></paragraph> +<paragraph id="par_id3149456" role="paragraph" xml-lang="en-US">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> -<bascode>
-<paragraph role="bascode" id="par_id3154909" xml-lang="en-US" oldref="6">Sin (Number)</paragraph>
+<paragraph id="par_id3153379" role="paragraph" xml-lang="en-US">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 id="par_id3148798" role="paragraph" xml-lang="en-US">Sin(Alpha) = side opposite the angle/hypotenuse</paragraph> + +<paragraph id="hd_id3147230" role="heading" level="2" xml-lang="en-US">Syntax:</paragraph> +<bascode> +<paragraph id="par_id3154909" role="bascode" xml-lang="en-US">Sin (Number)</paragraph> </bascode> -<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> + +<paragraph id="hd_id3156214" role="heading" level="2" xml-lang="en-US">Return value:</paragraph> +<paragraph id="par_id3150870" role="paragraph" xml-lang="en-US">Double</paragraph> + +<paragraph id="hd_id3155132" role="heading" level="2" xml-lang="en-US">Parameters:</paragraph> +<paragraph id="par_id3145786" role="paragraph" xml-lang="en-US"> <emph>Number:</emph> Numeric expression that defines the angle in radians that you want to calculate the sine for.</paragraph> +<paragraph id="par_id3155413" role="paragraph" xml-lang="en-US">To convert degrees to radians, multiply degrees by Pi/180, and to convert radians to degrees, multiply radians by 180/Pi.</paragraph> +<paragraph id="par_id3149664" role="paragraph" xml-lang="en-US">grad=(radiant*180)/pi</paragraph> +<paragraph id="par_id3153143" role="paragraph" xml-lang="en-US">radiant=(grad*pi)/180</paragraph> +<paragraph id="par_id3151112" role="paragraph" xml-lang="en-US">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 id="hd_id3163712" role="heading" level="2" xml-lang="en-US">Example:</paragraph> <bascode> -<paragraph role="bascode" id="par_id3149482" xml-lang="en-US" l10n="U" oldref="16">' In this example, the following entry is possible for a right-angled triangle:</paragraph> -<paragraph role="bascode" id="par_id3148577" xml-lang="en-US" l10n="U" oldref="17">' The side opposite the angle and the angle (in degrees) to calculate the length of the hypotenuse:</paragraph> -<paragraph role="bascode" localize="false" xml-lang="en-US">Sub ExampleSine</paragraph> -<paragraph role="bascode" id="par_id3150011" xml-lang="en-US" l10n="U" oldref="19">' Pi = 3.1415926 is a predefined variable</paragraph> -<paragraph role="bascode" localize="false" xml-lang="en-US">Dim d1 As Double</paragraph> -<paragraph role="bascode" localize="false" xml-lang="en-US">Dim dAlpha As Double</paragraph> -<paragraph role="bascode" 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="bascode" id="par_id3148456" xml-lang="en-US" l10n="U" oldref="23"> dAlpha = InputBox("Enter the angle Alpha (in degrees): ","Alpha")</paragraph> -<paragraph role="bascode" 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="bascode" localize="false" xml-lang="en-US">End Sub</paragraph> +<paragraph id="par_id3149482" role="bascode" xml-lang="en-US">' In this example, the following entry is possible for a right-angled triangle:</paragraph> +<paragraph id="par_id3148577" role="bascode" xml-lang="en-US">' The side opposite the angle and the angle (in degrees) to calculate the length of the hypotenuse:</paragraph> +<paragraph id="par_idm1341562464" role="bascode" localize="false" xml-lang="en-US">Sub ExampleSine</paragraph> +<paragraph id="par_id3150011" role="bascode" xml-lang="en-US">' Pi = 3.1415926 is a predefined variable</paragraph> +<paragraph id="par_idm1341559440" role="bascode" localize="false" xml-lang="en-US">Dim d1 As Double</paragraph> +<paragraph id="par_idm1341558208" role="bascode" localize="false" xml-lang="en-US">Dim dAlpha As Double</paragraph> +<paragraph id="par_id3145251" role="bascode" xml-lang="en-US"> d1 = InputBox("Enter the length of the opposite side: ","Opposite Side")</paragraph> +<paragraph id="par_id3148456" role="bascode" xml-lang="en-US"> dAlpha = InputBox("Enter the angle Alpha (in degrees): ","Alpha")</paragraph> +<paragraph id="par_id3153877" role="bascode" xml-lang="en-US"> Print "The length of the hypotenuse is"; (d1 / sin (dAlpha * Pi / 180))</paragraph> +<paragraph id="par_idm1341551616" role="bascode" localize="false" xml-lang="en-US">End Sub</paragraph> </bascode> </body> -</helpdocument> + +</helpdocument>
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