Difference between revisions of "Manuals/calci/COS"
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*In a right angled triangle, '''COS = Adjacent / Hypotenuse'''.<br/> | *In a right angled triangle, '''COS = Adjacent / Hypotenuse'''.<br/> | ||
*By default, Calci takes the angle in Radians. | *By default, Calci takes the angle in Radians. | ||
| − | * To convert Radian to Degree multiply with 180/PI() or we have to use the Radians function COS(RADIAN(x)). | + | * To convert Radian to Degree multiply with 180/PI() or we have to use the Radians function COS(RADIAN(x))or DCOS(x). |
* COS function determines the Cosine of the given angle. <br/> | * COS function determines the Cosine of the given angle. <br/> | ||
Revision as of 03:49, 1 November 2013
COS(x)
- where x is the angle in Radians
- by default Calci use Radian as angle
DCOS can be used if the angle is in degrees.
The angle can be a single value or any complex array of values.
For example COS(1..100) can give an array of the results, which is the COS value for each of the elements in the array. The array could be of any shape.
Description
Consider x = 90 then =COS(RADIANS(90)) gives 0
The above function gives the Cosine of 'x' in Degree.
- In a right angled triangle, COS = Adjacent / Hypotenuse.
- By default, Calci takes the angle in Radians.
- To convert Radian to Degree multiply with 180/PI() or we have to use the Radians function COS(RADIAN(x))or DCOS(x).
- COS function determines the Cosine of the given angle.
The following example shows how COS is applied to an array of numbers containing numbers 1..10.
1..10@COS
| Number | COS |
|---|---|
| 1 | 0.54030230586 |
| 2 | -0.41614683654 |
| 3 | -0.9899924966 |
| 4 | -0.65364362086 |
| 5 | 0.28366218546 |
| 6 | 0.96017028665 |
| 7 | 0.75390225434 |
| 8 | -0.1455000338 |
| 9 | -0.91113026188 |
| 10 | -0.83907152907 |
Examples
COS(x)
- x is the angle in radians.
| COS(Radian) | Value |
| COS(0) | 0 |
| COS(1) | 0.54030230586 |
| COS(90) | -0.44807361612 |