Presentation is loading. Please wait.

Presentation is loading. Please wait.

Trigonometric Form of Complex Numbers. Real Axis Imaginary Axis Remember a complex number has a real part and an imaginary part. These are used to plot.

Published byBrianna Dorsey Modified over 8 years ago

Similar presentations

Presentation on theme: "Trigonometric Form of Complex Numbers. Real Axis Imaginary Axis Remember a complex number has a real part and an imaginary part. These are used to plot."— Presentation transcript:

1 Trigonometric Form of Complex Numbers

2 Real Axis Imaginary Axis Remember a complex number has a real part and an imaginary part. These are used to plot complex numbers on a complex plane. b a z  The angle formed from the real axis and a line from the origin to (a, b) is called the argument of z, with requirement that 0   < 2 . modified for quadrant and so that it is between 0 and 2  The absolute value or modulus of z denoted by z is the distance from the origin to the point (a, b).

3 Trigonometric Form of a Complex Number  b a  Note: You may use any other trig functions and their relationships to the right triangle as well as tangent. r

4 Real Axis Imaginary Axis r  ́ Plot the complex number and then convert to trigonometric form: Find the modulus r 1  but in Quad II Find the argument 

5 It is easy to convert from trigonometric to rectangular form because you just work the trig functions and distribute the r through. If asked to plot the point and it is in trigonometric form, you would plot the angle and radius. 2 Notice that is the same as plotting

6 use sum formula for sinuse sum formula for cos Replace i 2 with -1 and group real terms and then imaginary terms Must FOIL these Let's try multiplying two complex numbers in trigonometric form together. Look at where we started and where we ended up and see if you can make a statement as to what happens to the r 's and the  's when you multiply two complex numbers. M ultiply the M oduli and A dd the A rguments

7 (This says to multiply two complex numbers in polar form, multiply the moduli and add the arguments) (This says to divide two complex numbers in polar form, divide the moduli and subtract the arguments)

8 multiply the moduliadd the arguments (the i sine term will have same argument) If you want the answer in rectangular coordinates simply compute the trig functions and multiply the 24 through.

9 divide the modulisubtract the arguments In polar form we want an angle between 0 and 360° so add 360° to the -80° In rectangular coordinates:

Download ppt "Trigonometric Form of Complex Numbers. Real Axis Imaginary Axis Remember a complex number has a real part and an imaginary part. These are used to plot."

Similar presentations

Polar Coordinates We Live on a Sphere.

Polar Coordinates We Live on a Sphere.
Trigonometric (Polar) Form of Complex Numbers

Trigonometric (Polar) Form of Complex Numbers
10.4 Trigonometric (Polar) Form of Complex Numbers

10.4 Trigonometric (Polar) Form of Complex Numbers
Trigonometric Form of a Complex Number

Trigonometric Form of a Complex Number
Trigonometric Form of a Complex Number

Trigonometric Form of a Complex Number
GEOMETRIC REPRESENTATION OF COMPLEX NUMBERS A Complex Number is in the form: z = a+bi We can graph complex numbers on the axis shown below: Real axis.

GEOMETRIC REPRESENTATION OF COMPLEX NUMBERS A Complex Number is in the form: z = a+bi We can graph complex numbers on the axis shown below: Real axis.
Complex Numbers in Polar Form; DeMoivre’s Theorem 6.5

Complex Numbers in Polar Form; DeMoivre’s Theorem 6.5
Pre-Calculus Chapter 6 Additional Topics in Trigonometry.

Pre-Calculus Chapter 6 Additional Topics in Trigonometry.
Trigonometric Form of Complex Numbers

Trigonometric Form of Complex Numbers
8.3 THE COMPLEX PLANE & DEMOIVRE’S THEOREM Precalculus.

8.3 THE COMPLEX PLANE & DEMOIVRE’S THEOREM Precalculus.
Sum and Difference Identities for Sine and Tangent

Sum and Difference Identities for Sine and Tangent
11.2 Geometric Representations of Complex Numbers.

11.2 Geometric Representations of Complex Numbers.
The Unit Circle.

The Unit Circle.
Distance between Points on a Coordinate Plane

Distance between Points on a Coordinate Plane
6.5 Complex Numbers in Polar Form. Copyright © 2014, 2010, 2007 Pearson Education, Inc. 2 Objectives: Plot complex number in the complex plane. Find the.

6.5 Complex Numbers in Polar Form. Copyright © 2014, 2010, 2007 Pearson Education, Inc. 2 Objectives: Plot complex number in the complex plane. Find the.
Solving Trigonometric Equations

Solving Trigonometric Equations
COMPLEX NUMBER SYSTEM 1. COMPLEX NUMBER NUMBER OF THE FORM C= a+Jb a = real part of C b = imaginary part. 2.

COMPLEX NUMBER SYSTEM 1. COMPLEX NUMBER NUMBER OF THE FORM C= a+Jb a = real part of C b = imaginary part. 2.
1 Trigonometric Functions of Any Angle & Polar Coordinates Sections 8.1, 8.2, 8.3, 21.10.

1 Trigonometric Functions of Any Angle & Polar Coordinates Sections 8.1, 8.2, 8.3,
Trigonometric Functions of Any Angle & Polar Coordinates

Trigonometric Functions of Any Angle & Polar Coordinates
Complex Numbers. Complex number is a number in the form z = a+bi, where a and b are real numbers and i is imaginary. Here a is the real part and b is.

Complex Numbers. Complex number is a number in the form z = a+bi, where a and b are real numbers and i is imaginary. Here a is the real part and b is.

Similar presentations

Ads by Google