Difference between revisions of "Manuals/calci/TAN"

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==Description==
 
==Description==
Consider &nbsp;&nbsp;&nbsp; '''x = 90'''&nbsp;&nbsp;&nbsp;  then &nbsp;&nbsp;&nbsp;  '''=SIN(RADIANS(90))'''&nbsp;&nbsp;&nbsp; gives &nbsp;&nbsp;&nbsp;'''1''' <br/>
+
Consider &nbsp;&nbsp;&nbsp; '''x = 90'''&nbsp;&nbsp;&nbsp;  then &nbsp;&nbsp;&nbsp;  '''=TAN(RADIANS(90))'''&nbsp;&nbsp;&nbsp; gives &nbsp;&nbsp;&nbsp;'''1''' <br/>
* SIN function determines the sine of the given angle.
+
* TAN function determines the sine of the given angle.
  
The following example shows how SIN is applied to an array of numbers containing numbers 1..10.
+
The following example shows how TAN is applied to an array of numbers containing numbers 1..10.
  
 
1..10@TAN
 
1..10@TAN
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! Number !! TAN
 
! Number !! TAN
 
|-
 
|-
| 1 || 0.8414709848078965
+
| 1 || 1.55740772465
 
|-
 
|-
| 2 || 0.9092974268256817
+
| 2 || -2.18503986326
 
|-
 
|-
| 3 || 0.1411200080598672
+
| 3 || -0.14254654307
 
|-
 
|-
| 4 || -0.7568024953079282
+
| 4 || 1.15782128235
 
|-
 
|-
| 5 || -0.9589242746631385
+
| 5 ||-3.38051500625
 
|-
 
|-
| 6 || -0.27941549819892586
+
| 6 || -0.29100619138
 
|-
 
|-
| 7 || 0.6569865987187891
+
| 7 || 0.87144798272
 
|-
 
|-
| 8 || 0.9893582466233818
+
| 8 || -6.79971145522
 
|-
 
|-
| 9 || 0.4121184852417566
+
| 9 || -0.45231565944
 
|-
 
|-
| 10 || -0.5440211108893698
+
| 10 || 0.64836082745
 
|}
 
|}
  
 
== Examples ==
 
== Examples ==
'''SIN(x)'''
+
'''TAN(x)'''
 
*'''x  ''' is the angle in radians.
 
*'''x  ''' is the angle in radians.
  
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|- class="even"
 
|- class="even"
| TA(1)
+
| TAN(1)
 
| 0.8414709848
 
| 0.8414709848
  
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*[[Manuals/calci/DTAN | DTAN]]
 
*[[Manuals/calci/DTAN | DTAN]]
  
*[[Manuals/calci/DTAN | ATAN]]
+
*[[Manuals/calci/ATAN | ATAN]]
  
 
==References==
 
==References==

Revision as of 05:11, 30 October 2013

TAN(x)


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

DTAN can be used if the angle is in degrees.

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

For example SIN(1..100) can give an array of the results, which is the SIN value for each of the elements in the array. The array could be of any shape.

Description

Consider     x = 90    then     =TAN(RADIANS(90))    gives    1

  • TAN function determines the sine of the given angle.

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

1..10@TAN

Number TAN
1 1.55740772465
2 -2.18503986326
3 -0.14254654307
4 1.15782128235
5 -3.38051500625
6 -0.29100619138
7 0.87144798272
8 -6.79971145522
9 -0.45231565944
10 0.64836082745

Examples

TAN(x)

  • x   is the angle in radians.
TAN(Radian) Value
TAN(0) 0
TAN(1) 0.8414709848
TAN(90) 0.8939966636


See Also

References