Difference between revisions of "Manuals/calci/IMARGUMENT"

Latest revision as of 04:18, 23 October 2020

IMARGUMENT(Complexnumber)

is of the form .
- IMARGUMENT(), returns the argument theta, an angle expressed in radians

Description

This function gives the principal value of an argument of a complex-valued expression $z$ .
i.e The angle from the positive axis to the line segment is called the Argument of a complex number.
In this function angle value is in Radians.
Here $IMARGUMENT(Complexnumber)$ , Where Complexnumber in the form of $z=x+iy$ . i.e $x$ & $y$ are the real numbers.
$I$ imaginary unit . $i={\sqrt {-1}}$ .
An argument of the complex number $z=x+iy$ is any real quantity $\phi$ such that $z=x+iy$ = $rcos(\phi )+irsin(\phi )$ for some positive real number $r$ .
Where $r=|z|={\sqrt {x^{2}+y^{2}}}$ and $\phi \in (-\pi ,\pi ]$ .
The argument of a complex number is calculated by $arg(z)=tan^{-1}({\frac {y}{x}})=\theta$ in Radians.
To change the Radian value to Degree we can use DEGREES function or we can multiply the answer with ${\frac {180}{\pi }}$ .
We can use COMPLEX function to convert real and imaginary number in to a complex number.

ZOS

The syntax is to calculate argument of a complex number in ZOS is .
- $Complexnumber$ is of the form $z=x+iy$ .
For e.g.,IMARGUMENT("6.72+1.5i")

Imargument

Examples

IMARGUMENT("3-2i") = -0.5880026035475675
IMARGUMENT("5+6i") = 0.8760580505981934
IMARGUMENT("2") = 0
IMARGUMENT("4i") = 1.5707963267948966
DEGREES(IMARGUMENT("2+2i")) = 45°

References

Complex Argument

List of Main Z Functions

Z3 home

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-<div style="font-size:30px">'''IMARGUMENT(z)'''</div><br/>
+<div style="font-size:30px">'''IMARGUMENT(Complexnumber)'''</div><br/>
-*<math>z</math> is the complex number is of the form <math>x+iy</math>
+*<math>Complexnumber</math> is of the form <math>z=x+iy</math>.
-*<math>n</math> is the order of the Bessel function and is an integer
+**IMARGUMENT(), returns the argument theta, an angle expressed in radians
 ==Description==
-*This function gives  the principal value of the argument of the complex-valued expression <math>z</math>.
+*This function gives the principal value of an argument of a complex-valued expression <math>z</math>.
 * i.e The angle from the positive axis to the line segment is called the Argument of a complex number.
 *In this function angle value is in Radians.
-*Here IMARGUMENT(z), Where <math>z</math> is the complex number in the form of <math>x+iy</math>. i.e  <math>x</math> & <math>y</math> are the real numbers.
+*Here <math>IMARGUMENT(Complexnumber)</math>, Where Complexnumber  in the form of <math>z=x+iy</math>. i.e  <math>x</math> & <math>y</math> are the real numbers.
 *<math>I</math> imaginary unit .<math>i=\sqrt{-1}</math>.
-*An argument of the complex number <math>z = x + iy</math> is any real quantity <math>\psi</math> such that <math>z = x + i y</math> = <math>r cosφ + i r sinφ</math> for some positive real number <math>r</math>.
+*An argument of the complex number <math>z = x + iy</math> is any real quantity <math>\phi</math> such that <math>z = x + i y</math> = <math>r cos(\phi) + i r sin(\phi)</math> for some positive real number <math>r</math>.
-*Where <math>r = |z| = \sqrt{x^2+y^2}</math> and <math>\psi \in [(-\Pi(),\Pi()]<math>.
+*Where <math>r = |z| = \sqrt{x^2+y^2}</math> and <math>\phi \in (-\pi,\pi]</math>.
-*The argument of a complex number is calculated by <math>arg(z)= tan^{-1}(\frac{y}{x}) =\theta<math> in Radians.
+*The argument of a complex number is calculated by <math>arg(z)= tan^{-1}(\frac{y}{x}) =\theta</math> in Radians.
 *To change the Radian value to Degree we can use DEGREES function or we can multiply the answer with <math>\frac{180}{\pi}</math>.
-*We can use COMPLEX function to convert real and imaginary number in to a complex number.
+*We can use [[Manuals/calci/COMPLEX| COMPLEX]] function to convert real and imaginary number in to a complex number.
+==ZOS==
+*The syntax is to calculate argument of a complex number in ZOS is <math>IMARGUMENT(Complexnumber)</math>.
+**<math>Complexnumber</math> is of the form <math>z=x+iy</math>.
+*For e.g.,IMARGUMENT("6.72+1.5i")
+{{#ev:youtube|oO4FgWYhIhw|280|center|Imargument}}
 ==Examples==
-#IMARGUMENT("3-2i") = -0.588002604
+#IMARGUMENT("3-2i") = -0.5880026035475675
-#IMARGUMENT("5+6i") = 0.876058051
+#IMARGUMENT("5+6i") = 0.8760580505981934
 #IMARGUMENT("2") = 0
-#IMARGUMENT("4i") = 1.570796327
+#IMARGUMENT("4i") = 1.5707963267948966
-#DEGREES(IMARGUMENT("2+2i")) = 45
+#DEGREES(IMARGUMENT("2+2i")) = 45°
+==Related Videos==
+{{#ev:youtube|FwuPXchH2rA|280|center|Complex Number Analysis}}
+==See Also==
+*[[Manuals/calci/IMAGINARY  | IMAGINARY ]]
+*[[Manuals/calci/IMREAL  | IMREAL]]
+*[[Manuals/calci/IMSUM  | IMSUM ]]
 ==References==
-[http://en.wikipedia.org/wiki/Bessel_function  Bessel Function]
+*[http://mathworld.wolfram.com/ComplexArgument.html Complex Argument]
+*[[Z_API_Functions | List of Main Z Functions]]
+*[[ Z3 |   Z3 home ]]

Difference between revisions of "Manuals/calci/IMARGUMENT"

Latest revision as of 04:18, 23 October 2020

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