main/helpcontent2/source/text/sbasic/shared/03080104.xhp - openoffice - Git at Google

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 <helpdocument version="1.0">
 <meta>
 <topic id="textsbasicshared03080104xml" indexer="include" status="PUBLISH">
 <title id="tit" xml-lang="en-US">Tan Function [Runtime]</title>
 <filename>/text/sbasic/shared/03080104.xhp</filename>
 </topic>
 </meta>
 <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"><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="CHG">Determines the tangent of an angle. The angle is specified in radians.<comment>i71396</comment></paragraph>
 </section>
 <paragraph role="paragraph" id="par_id3153379" xml-lang="en-US" l10n="U">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">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">Syntax:</paragraph>
 <paragraph role="paragraph" id="par_id3151042" xml-lang="en-US" l10n="U">Tan (Number)</paragraph>
 <paragraph role="heading" id="hd_id3156214" xml-lang="en-US" level="2" l10n="U">Return value:</paragraph>
 <paragraph role="paragraph" id="par_id3156281" xml-lang="en-US" l10n="U">Double</paragraph>
 <paragraph role="heading" id="hd_id3155132" xml-lang="en-US" level="2" l10n="U">Parameters:</paragraph>
 <paragraph role="paragraph" id="par_id3145786" xml-lang="en-US" l10n="U"><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">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="CHG">degrees=(radiant*180)/Pi</paragraph>
 <paragraph role="paragraph" id="par_id3146975" xml-lang="en-US" l10n="CHG">radiant=(degrees*Pi)/180</paragraph>
 <paragraph role="paragraph" id="par_id3147434" xml-lang="en-US" l10n="U">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">Example:</paragraph>
 <paragraph role="paragraph" id="par_id3148646" xml-lang="en-US" l10n="U">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">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">Sub ExampleTangens</paragraph>
 <paragraph role="paragraph" id="par_id3153158" xml-lang="en-US" l10n="U">REM Pi = 3.1415926 is a pre-defined variable</paragraph>
 <paragraph role="paragraph" id="par_id3145800" xml-lang="en-US" l10n="U">Dim d1 as Double</paragraph>
 <paragraph role="paragraph" id="par_id3150417" xml-lang="en-US" l10n="U">Dim dAlpha as Double</paragraph>
 <paragraph role="paragraph" id="par_id3145252" xml-lang="en-US" l10n="U">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">dAlpha = InputBox$ ("Enter the Alpha angle (in degrees): ","Alpha")</paragraph>
 <paragraph role="paragraph" id="par_id3154016" xml-lang="en-US" l10n="U">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">End Sub</paragraph>
 </body>
 </helpdocument>
	<?xml version="1.0" encoding="UTF-8"?>

	<!--***********************************************************
	*
	* Licensed to the Apache Software Foundation (ASF) under one
	* or more contributor license agreements. See the NOTICE file
	* distributed with this work for additional information
	* regarding copyright ownership. The ASF licenses this file
	* to you under the Apache 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
	*
	* Unless required by applicable law or agreed to in writing,
	* software distributed under the License is distributed on an
	* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	* KIND, either express or implied. See the License for the
	* specific language governing permissions and limitations
	* under the License.
	*
	***********************************************************-->

	<helpdocument version="1.0">
	<meta>
	<topic id="textsbasicshared03080104xml" indexer="include" status="PUBLISH">
	<title id="tit" xml-lang="en-US">Tan Function [Runtime]</title>
	<filename>/text/sbasic/shared/03080104.xhp</filename>
	</topic>
	</meta>
	<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"><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="CHG">Determines the tangent of an angle. The angle is specified in radians.<comment>i71396</comment></paragraph>
	</section>
	<paragraph role="paragraph" id="par_id3153379" xml-lang="en-US" l10n="U">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">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">Syntax:</paragraph>
	<paragraph role="paragraph" id="par_id3151042" xml-lang="en-US" l10n="U">Tan (Number)</paragraph>
	<paragraph role="heading" id="hd_id3156214" xml-lang="en-US" level="2" l10n="U">Return value:</paragraph>
	<paragraph role="paragraph" id="par_id3156281" xml-lang="en-US" l10n="U">Double</paragraph>
	<paragraph role="heading" id="hd_id3155132" xml-lang="en-US" level="2" l10n="U">Parameters:</paragraph>
	<paragraph role="paragraph" id="par_id3145786" xml-lang="en-US" l10n="U"><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">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="CHG">degrees=(radiant*180)/Pi</paragraph>
	<paragraph role="paragraph" id="par_id3146975" xml-lang="en-US" l10n="CHG">radiant=(degrees*Pi)/180</paragraph>
	<paragraph role="paragraph" id="par_id3147434" xml-lang="en-US" l10n="U">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">Example:</paragraph>
	<paragraph role="paragraph" id="par_id3148646" xml-lang="en-US" l10n="U">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">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">Sub ExampleTangens</paragraph>
	<paragraph role="paragraph" id="par_id3153158" xml-lang="en-US" l10n="U">REM Pi = 3.1415926 is a pre-defined variable</paragraph>
	<paragraph role="paragraph" id="par_id3145800" xml-lang="en-US" l10n="U">Dim d1 as Double</paragraph>
	<paragraph role="paragraph" id="par_id3150417" xml-lang="en-US" l10n="U">Dim dAlpha as Double</paragraph>
	<paragraph role="paragraph" id="par_id3145252" xml-lang="en-US" l10n="U">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">dAlpha = InputBox$ ("Enter the Alpha angle (in degrees): ","Alpha")</paragraph>
	<paragraph role="paragraph" id="par_id3154016" xml-lang="en-US" l10n="U">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">End Sub</paragraph>
	</body>
	</helpdocument>