Difference between revisions of "Manuals/calci/IMDIV"

Latest revision as of 16:34, 19 July 2018

IMDIV()

Parameters are any complex numbers of the form of a+ib.
- IMDIV(),returns the quotient of two complex numbers

Description

This function gives the division of two complex numbers.
This function used to remove the $i$ (imaginary unit) from the denominator.
The two Parameters are in the form of $a+ib$ and $c+id$ , where $a,b,c$ & $d$ are real numbers $i$ is the imaginary unit, $i={\sqrt {-1}}$ .
Let z1 and z2 are the two Complex Numbers.
To do the division of complex number we have follow the steps:

step 1: Write the complex number in the fraction form.
step 2: Find the conjugate of the denominator.
step 3: Multiply the numerator and denominator with conjugate.

IMDIV(z1,z2)={\frac {a+ib}{c+id}}={\frac {a+ib}{c+id}}*{\frac {c-id}{c-id}}={\frac {ac+bd}{c^{2}+d^{2}}}+{\frac {(bc-ad)i}{(c^{2}+d^{2})}}

.

To find the Conjugate of a Complex Number we can use the function IMCONJUGATE.

ZOS

The syntax is to calculate the IMDIV in ZOS is .
- Parameters are any complex numbers of the form of a+ib.
For e.g.,IMDIV("3+2i","3-2i")

ImDiv

Examples

IMDIV("4+2i","3-i") = ${\frac {4+2i}{3-i}}*{\frac {3+i}{3+i}}$ = ${\frac {12+10i+2i^{2}}{3^{2}-i^{2}}}=10+{\frac {10i}{10}}$ (because $i^{2}=-1$ ) = $1+{\frac {i}{1}}=1+1i$
IMDIV("3-5i","2-6i") = 0.9+0.2i
IMDIV("5","2+3i") = 0.7692307692307693 + -1.1538461538461537i
IMDIV("1+i","2") = 0.5+0.5i

References

Complex Division

List of Main Z Functions

Z3 home

@@ Line 1: / Line 1: @@
-<div style="font-size:30px">'''IMDIV(ComplexNumber1,ComplexNumber2)'''</div><br/>
+<div style="font-size:30px">'''IMDIV()'''</div><br/>
-*<math>ComplexNumber1</math> and <math>ComplexNumber2</math> are in the form of a+bi.
+*Parameters are any complex numbers of the form of a+ib.
+**IMDIV(),returns the quotient of two complex numbers
 ==Description==
@@ Line 6: / Line 7: @@
 *This function gives the division of two complex numbers.
 *This function used to remove the <math>i</math> (imaginary unit) from the denominator.
-*<math>ComplexNumber1</math> and <math>ComplexNumber2</math> are in the form  of <math>a+ib</math> and <math>c+id</math>, where <math>a,b,c</math> & <math>d</math> are real numbers <math>i</math> is the imaginary unit, <math>i=\sqrt{-1}</math>.
+*The two Parameters are in the form  of <math>a+ib</math> and <math>c+id</math>, where <math>a,b,c</math> & <math>d</math> are real numbers <math>i</math> is the imaginary unit, <math>i=\sqrt{-1}</math>.
 *Let z1 and z2 are the two Complex Numbers.
 *To do the division of complex number we have follow the steps:
@@ Line 15: / Line 16: @@
 *To find the Conjugate of a Complex Number we can use the function [[Manuals/calci/IMCONJUGATE  | IMCONJUGATE]].
-==ZOS Section==
+==ZOS==
-*The syntax is to calculate the IMDIV in ZOS is <math>IMDIV(ComplexNumber1,ComplexNumber2)</math>.
+*The syntax is to calculate the IMDIV in ZOS is <math>IMDIV()</math>.
-**<math>ComplexNumber1</math> and <math>ComplexNumber2</math> are in the form of a+bi.
+**Parameters are any complex numbers of the form of a+ib.
 *For e.g.,IMDIV("3+2i","3-2i")
@@ Line 24: / Line 25: @@
 ==Examples==
 #IMDIV("4+2i","3-i") =<math>\frac{4+2i}{3-i}*\frac{3+i}{3+i}</math> = <math>\frac{12+10i+2i^2}{3^2-i^2} = 10+\frac{10i}{10}</math> (because <math>i^2=-1</math>) = <math> 1+\frac{i}{1} = 1+1i </math>
-#IMDIV("3-5i,2-6i") = 0.9+0.2i
+#IMDIV("3-5i","2-6i") = 0.9+0.2i
 #IMDIV("5","2+3i") = 0.7692307692307693 + -1.1538461538461537i
 #IMDIV("1+i","2") = 0.5+0.5i
@@ Line 40: / Line 41: @@
 ==References==
 [http://en.wikipedia.org/wiki/Complex_division   Complex Division]
+*[[Z_API_Functions | List of Main Z Functions]]
+*[[ Z3 |   Z3 home ]]

Difference between revisions of "Manuals/calci/IMDIV"

Latest revision as of 16:34, 19 July 2018

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