Difference between revisions of "Manuals/calci/DTAN"

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<div style="font-size:30px">'''DCOTAN(x)'''</div><br/>
+
<div style="font-size:30px">'''DTAN(x)'''</div><br/>
 
* where '''x''' is the angle in Radians
 
* where '''x''' is the angle in Radians
 
* by default Calci use Radian as angle
 
* by default Calci use Radian as angle
[[Manuals/calci/COTAN| COTAN]] can be used if the angle is in Radians.  
+
[[Manuals/calci/TAN| TAN]] can be used if the angle is in Radians.  
  
 
==Description==
 
==Description==
 
*This function is used to obtain the Cotangent value of 'x' in degrees.<br/>
 
*This function is used to obtain the Cotangent value of 'x' in degrees.<br/>
*It is the reciprocal of TAN function i.e.,'''Cotan(x)''' = '''1 / Tan(x)''' or '''Cos(x) / Sin(x)'''.<br/>
+
*It is the reciprocal of COT function i.e.,'''Tan(x)''' = '''1 / COT(x)''' or '''SIN(x) / COS(x)'''.<br/>
*In a right angled triangle '''Cotan(x) = Adjacent side / Opposite side'''.<br/>
+
*In a right angled triangle '''Tan(x) = Opposite side / Adjacent side'''.<br/>
*To obtain the value in Radians multiply with PI()/180 or use Cotan function COTAN(X)
+
*To obtain the value in Radians multiply with PI()/180 or use Tan function TAN(X)
*DCOTAN returns NaN if 'x' is not real
+
*DTAN returns NaN if 'x' is not real
 
The angle can be a single value or any complex array of values.
 
The angle can be a single value or any complex array of values.
  
The following example shows how COTAN is applied to an array of numbers containing numbers 1..10.
+
The following example shows how DTAN is applied to an array of numbers containing numbers 1..10.
 
*Type =1..10@DCOTAN in Calci
 
*Type =1..10@DCOTAN in Calci
*Type =1..10@DCOTAN or 1..10@DCOTAN in ZOS
+
*Type =1..10@DTAN or 1..10@DTAN in ZOS
  
 
{| class="wikitable"
 
{| class="wikitable"
 
|-
 
|-
! Number !! DCOTAN
+
! Number !! DTAN
 
|-
 
|-
 
| 1 || 0.642092616
 
| 1 || 0.642092616
Line 42: Line 42:
  
 
== Examples ==
 
== Examples ==
'''DCOTAN(x)'''
+
'''DTAN(x)'''
 
*'''x  ''' is the angle in radians.
 
*'''x  ''' is the angle in radians.
* COTAN(-X)=-COTAN(X)
+
* COTAN(-X)=TAN(X)
* Result shows COTAN(abc)= NAN
+
* Result shows TAN(abc)= NAN
  
 
{|id="TABLE1" class="SpreadSheet blue"
 
{|id="TABLE1" class="SpreadSheet blue"
  
 
|- class="even"
 
|- class="even"
|'''DCOTAN(Radian)'''
+
|'''DTAN(Radian)'''
 
|'''Value'''
 
|'''Value'''
  
 
|- class="odd"
 
|- class="odd"
| DCOTAN (100)
+
| DTAN (100)
 
| 0.1762698070846492
 
| 0.1762698070846492
  
 
|- class="even"
 
|- class="even"
| DCOTAN (20)
+
| DTAN (20)
 
| 2.7474774194546225
 
| 2.7474774194546225
  
 
|- class="odd"
 
|- class="odd"
| DCOTAN (-20)
+
| DTAN (-20)
 
| 2.7474774194546225
 
| 2.7474774194546225
  
Line 70: Line 70:
  
 
*[[Manuals/calci/TAN | TAN]]
 
*[[Manuals/calci/TAN | TAN]]
*[[Manuals/calci/DTAN | DTAN]]
 
 
*[[Manuals/calci/TANH | TANH]]
 
*[[Manuals/calci/TANH | TANH]]
 
*[[Manuals/calci/ASIN | ASIN]]
 
*[[Manuals/calci/ASIN | ASIN]]
Line 77: Line 76:
  
 
*[http://en.wikipedia.org/wiki/Trigonometric_functions List of Trigonometric Functions]
 
*[http://en.wikipedia.org/wiki/Trigonometric_functions List of Trigonometric Functions]
*[http://en.wikipedia.org/wiki/COT COT]
 
 
 
<div id="6SpaceContent" class="zcontent" align="left">
 
 
'''DTAN'''(n)
 
 
where
 
 
'''n '''is the angle in radian.
 
 
</div>
 
----
 
<div id="1SpaceContent" class="zcontent" align="left">
 
 
DTAN returns the double-precision real tangent of its double-precision real argument.
 
 
</div>
 
----
 
<div id="7SpaceContent" class="zcontent" align="left">
 
 
DTAN returns NaN if n is not real
 
 
</div>
 
----
 
<div id="12SpaceContent" class="zcontent" align="left"><div class="ZEditBox" align="left">
 
 
DTAN
 
 
</div></div>
 
----
 
<div id="8SpaceContent" class="zcontent" align="left">
 
 
Lets see an example in (Column2Row1)
 
 
<nowiki>=DTAN(Column1Row1)</nowiki>
 
 
Returns 0.8391 for DTAN(40)
 
 
Consider another example in (Column2Row2)
 
 
<nowiki>=DTAN(Column1Row2)</nowiki>
 
 
Returns NaN for DTAN("abc")
 
 
</div>
 
----
 
<div id="10SpaceContent" class="zcontent" align="left"><div class="ZEditBox" align="justify">Syntax </div><div class="ZEditBox"><center></center></div></div>
 
----
 
<div id="4SpaceContent" class="zcontent" align="left"><div class="ZEditBox" align="justify">Remarks </div></div>
 
----
 
<div id="3SpaceContent" class="zcontent" align="left"><div class="ZEditBox" align="justify">Examples </div></div>
 
----
 
<div id="11SpaceContent" class="zcontent" align="left"><div class="ZEditBox" align="justify">Description </div></div>
 
----
 
<div id="2SpaceContent" class="zcontent" align="left">
 
 
{| id="TABLE3" class="SpreadSheet blue"
 
|+ Default Calci
 
|- class="even"
 
| class=" " |
 
| Column1
 
| Column2
 
| Column3
 
| Column4
 
|- class="odd"
 
| class=" " | Row1
 
| 40
 
| class="sshl_f" | 0.8391
 
| class="                    sshl_f" |
 
| class="                                                          sshl_f  sshl_f" |
 
|- class="even"
 
| class="  " | Row2
 
| class=" " | abc
 
| class="sshl_f  " | NaN
 
| class=" sshl_f" |
 
| class="sshl_f  sshl_f" |
 
|- class="odd"
 
| Row3
 
|
 
| class="sshl_f            SelectTD1 ChangeBGColor" |
 
<div id="2Space_Handle" class="zhandles" title="Click and Drag to resize CALCI Column/Row/Cell. It is EZ!"></div><div id="2Space_Copy" class="zhandles" title="Click and Drag over to AutoFill other cells."></div><div id="2Space_Drag" class="zhandles" title="Click and Drag to Move/Copy Area.">[[Image:copy-cube.gif]]  </div>
 
| class="sshl_f  " |
 
| class="sshl_f" |
 
|- class="even"
 
| Row4
 
|
 
| class="sshl_f" |
 
| class="sshl_f" |
 
|
 
|- class="odd"
 
| class=" " | Row5
 
|
 
|
 
| class="sshl_f" |
 
|
 
|- class="even"
 
| Row6
 
|
 
|
 
| class="sshl_f" |
 
|
 
|}
 
 
{|
 
| <span align="left">[[Image:calci1.gif]]</span>
 
|
 
|
 
[[Image:bold.gif]]
 
|
 
[[Image:italic.gif]]
 
|
 
[[Image:normal.gif]]
 
|
 
[[Image:underline.gif]]
 
|
 
[[Image:border.gif]]
 
|
 
[[Image:numbers.gif]]
 
|
 
[[Image:sort.gif]]
 
|
 
[[Image:formatcells.gif]]
 
|
 
[[Image:graphs.gif]]
 
| $
 
|}
 
 
</div>
 
----
 

Revision as of 23:07, 3 November 2013

DTAN(x)


  • where x is the angle in Radians
  • by default Calci use Radian as angle

TAN can be used if the angle is in Radians.

Description

  • This function is used to obtain the Cotangent value of 'x' in degrees.
  • It is the reciprocal of COT function i.e.,Tan(x) = 1 / COT(x) or SIN(x) / COS(x).
  • In a right angled triangle Tan(x) = Opposite side / Adjacent side.
  • To obtain the value in Radians multiply with PI()/180 or use Tan function TAN(X)
  • DTAN returns NaN if 'x' is not real

The angle can be a single value or any complex array of values.

The following example shows how DTAN is applied to an array of numbers containing numbers 1..10.

  • Type =1..10@DCOTAN in Calci
  • Type =1..10@DTAN or 1..10@DTAN in ZOS
Number DTAN
1 0.642092616
2 -0.457657554
3 -7.015252551
4 0.863691154
5 -0.295812916
6 -3.436353004
7 1.147515422
8 -0.147065064
9 -2.210845411
10 1.542351045

Examples

DTAN(x)

  • x   is the angle in radians.
  • COTAN(-X)=TAN(X)
  • Result shows TAN(abc)= NAN
DTAN(Radian) Value
DTAN (100) 0.1762698070846492
DTAN (20) 2.7474774194546225
DTAN (-20) 2.7474774194546225

See Also

References

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