Review: complex numbers

Similar documents
Honors Advanced Mathematics November 4, /2.6 summary and extra problems page 1 Recap: complex numbers

Section 4.1: Polynomial Functions and Models

MathB65 Ch 4 VII, VIII, IX.notebook. November 06, 2017

MathB65 Ch 4 IV, V, VI.notebook. October 31, 2017

Section 0.2 & 0.3 Worksheet. Types of Functions

A) (-1, -1, -2) B) No solution C) Infinite solutions D) (1, 1, 2) A) (6, 5, -3) B) No solution C) Infinite solutions D) (1, -3, -7)

Secondary Math 3 Honors - Polynomial and Polynomial Functions Test Review

A quadratic expression is a mathematical expression that can be written in the form 2

Pre-Calculus Assignment Sheet Unit 8-3rd term January 20 th to February 6 th 2015 Polynomials

Section 6.6 Evaluating Polynomial Functions

Algebra III Chapter 2 Note Packet. Section 2.1: Polynomial Functions

Unit 7: Factoring Quadratic Polynomials

Warm Up Lesson Presentation Lesson Quiz. Holt Algebra 2 2

Solving Equations Quick Reference

Chapter 7 Polynomial Functions. Factoring Review. We will talk about 3 Types: ALWAYS FACTOR OUT FIRST! Ex 2: Factor x x + 64

Lesson 7.1 Polynomial Degree and Finite Differences

Tropical Polynomials

Chapter 3: Polynomial and Rational Functions

ZEROS OF POLYNOMIAL FUNCTIONS ALL I HAVE TO KNOW ABOUT POLYNOMIAL FUNCTIONS

Final Exam C Name i D) 2. Solve the equation by factoring. 4) x2 = x + 72 A) {1, 72} B) {-8, 9} C) {-8, -9} D) {8, 9} 9 ± i

Math 0320 Final Exam Review

2-2: Evaluate and Graph Polynomial Functions

LT1: Adding and Subtracting Polynomials. *When subtracting polynomials, distribute the negative to the second parentheses. Then combine like terms.

Algebra I Unit Report Summary

6x 3 12x 2 7x 2 +16x 7x 2 +14x 2x 4

Modeling Data. 27 will get new packet. 24 Mixed Practice 3 Binomial Theorem. 23 Fundamental Theorem March 2

UNIT 2 FACTORING. M2 Ch 11 all

Practical Algebra. A Step-by-step Approach. Brought to you by Softmath, producers of Algebrator Software

Math 75 Mini-Mod Due Dates Spring 2016

Chapter 8. Exploring Polynomial Functions. Jennifer Huss

Divisibility, Factors, and Multiples

MATH Spring 2010 Topics per Section

Pre-Calculus Summer Packet

Final Exam A Name. 20 i C) Solve the equation by factoring. 4) x2 = x + 30 A) {-5, 6} B) {5, 6} C) {1, 30} D) {-5, -6} -9 ± i 3 14

Roots & Zeros of Polynomials. How the roots, solutions, zeros, x-intercepts and factors of a polynomial function are related.

Math 10-C Polynomials Concept Sheets

Chapter 2 Formulas and Definitions:

Complex Numbers: Definition: A complex number is a number of the form: z = a + bi where a, b are real numbers and i is a symbol with the property: i

Answers to the problems will be posted on the school website, go to Academics tab, then select Mathematics and select Summer Packets.

Chapter Six. Polynomials. Properties of Exponents Algebraic Expressions Addition, Subtraction, and Multiplication Factoring Solving by Factoring

Ch 7 Summary - POLYNOMIAL FUNCTIONS

d. What are the steps for finding the y intercepts algebraically?(hint: what is equal to 0?)

Polynomials. Exponents. End Behavior. Writing. Solving Factoring. Graphing. End Behavior. Polynomial Notes. Synthetic Division.

Multiplication of Polynomials

3.4. ZEROS OF POLYNOMIAL FUNCTIONS

Solving Quadratic Equations Review

CHAPTER EIGHT: SOLVING QUADRATIC EQUATIONS Review April 9 Test April 17 The most important equations at this level of mathematics are quadratic

Section 3.6 Complex Zeros

Chapter 2 Polynomial and Rational Functions

1) The line has a slope of ) The line passes through (2, 11) and. 6) r(x) = x + 4. From memory match each equation with its graph.

Chapter 3-1 Polynomials

INTRODUCTION TO RATIONAL EXPRESSIONS EXAMPLE:

{ independent variable some property or restriction about independent variable } where the vertical line is read such that.

evaluate functions, expressed in function notation, given one or more elements in their domains

Algebra Vocabulary. abscissa

5.1 Monomials. Algebra 2

Polynomial and Rational Functions. Chapter 3

Lesson 7.1 Polynomial Degree and Finite Differences

Sections 7.1, 7.2: Sums, differences, products of polynomials CHAPTER 7: POLYNOMIALS

Chetek-Weyerhaeuser High School

Quantitative Techniques (Finance) 203. Polynomial Functions

Booker T. Washington Summer Math Packet 2015 Completed by Thursday, August 20, 2015 Each student will need to print the packet from our website.

Radicals: To simplify means that 1) no radicand has a perfect square factor and 2) there is no radical in the denominator (rationalize).

Name: 6.4 Polynomial Functions. Polynomial in One Variable

Day 6: 6.4 Solving Polynomial Equations Warm Up: Factor. 1. x 2-2x x 2-9x x 2 + 6x + 5

Complex Numbers. Essential Question What are the subsets of the set of complex numbers? Integers. Whole Numbers. Natural Numbers

Chapter Five Notes N P U2C5

Dear Future Pre-Calculus Students,

Unit 1 Vocabulary. A function that contains 1 or more or terms. The variables may be to any non-negative power.

MA.8.1 Students will apply properties of the real number system to simplify algebraic expressions and solve linear equations.

Chapter 2 Polynomial and Rational Functions

Math 1 Unit 1 EOC Review

Unit 1 - Daily Topical Map August

INTRODUCTION TO FRACTIONS

MODULE 1: FOUNDATIONS OF MATHEMATICS

Algebra 1. Standard 1: Operations With Real Numbers Students simplify and compare expressions. They use rational exponents and simplify square roots.

REAL WORLD SCENARIOS: PART IV {mostly for those wanting 114 or higher} 1. If 4x + y = 110 where 10 < x < 20, what is the least possible value of y?

Section 4.1 Polynomial Functions and Models. Copyright 2013 Pearson Education, Inc. All rights reserved

Monday Tuesday Wednesday Thursday Friday

Foundations of Math II Unit 5: Solving Equations

Chapter P. Prerequisites. Slide P- 1. Copyright 2007 Pearson Education, Inc. Publishing as Pearson Addison-Wesley

Pre-Calculus: Functions and Their Properties (Solving equations algebraically and graphically, matching graphs, tables, and equations, and

College Algebra with Trigonometry

Factors of Polynomials Factoring For Experts

Chapter R - Basic Algebra Operations (94 topics, no due date)

NAME DATE PERIOD. Operations with Polynomials. Review Vocabulary Evaluate each expression. (Lesson 1-1) 3a 2 b 4, given a = 3, b = 2

Algebra 1: Hutschenreuter Chapter 10 Notes Adding and Subtracting Polynomials

Using the Laws of Exponents to Simplify Rational Exponents

Algebra 2 Segment 1 Lesson Summary Notes

A repeated root is a root that occurs more than once in a polynomial function.

Are you ready for Algebra 3? Summer Packet *Required for all Algebra 3/Trigonometry Students*

Pre-Algebra 2. Unit 9. Polynomials Name Period

Units: 10 high school credits UC requirement category: c General Course Description:

!!! 1.! 4x 5 8x 4 32x 3 = 0. Algebra II 3-6. Fundamental Theorem of Algebra Attendance Problems. Identify all the real roots of each equation.

Algebra Summer Review Packet

x 2 + 6x 18 x + 2 Name: Class: Date: 1. Find the coordinates of the local extreme of the function y = x 2 4 x.

Quantile Textbook Report

Chapter One: Pre-Geometry

Review all the activities leading to Midterm 3. Review all the problems in the previous online homework sets (8+9+10).

5.3. Polynomials and Polynomial Functions

Transcription:

October 5/6, 01.5 extra problems page 1 Review: complex numbers Number system The complex number system consists of a + bi where a and b are real numbers, with various arithmetic operations. The real numbers are a subset of the complex numbers: a = a + 0i. Operations To add or subtract complex numbers, just combine like terms. To multiply complex numbers, use the distributive property and the fact i = 1. To divide complex numbers, use this technique involving a conjugate: a bi c di c di c di A square root of a + bi is a complex number whose square equals a + bi. Every non-zero complex number has two square roots, which are opposites of each other. For example, ( 3i) = 5 1i and ( + 3i) = 5 1i. As of now, we don t have a definition for how to use a complex number as an exponent. That requires some trigonometry ideas that we haven t established yet. Other operations on a complex number z = a + bi: absolute value (or modulus) z = a b conjugate z = a bi (we ll work with this later in the year.)

October 5/6, 01.5 extra problems page Part I: complex numbers 1. Show that the sum of a + bi and its conjugate is a real number.. Show that the product a + bi and its conjugate is a nonnegative real number. 3a. How could you show that 79 is the square root of 641 without using a calculator? 3b. How could you show that 3 i is a square root of 8-6i? 4. Show that 4-3i is a square root of 7-4i. 5. Show that 1 i is a square root of i. 6. Find the square roots of 3+4i.

October 5/6, 01.5 extra problems page 3 Write the following in the form a + bi. 7. 1 5i 8. 1 4 3i 9. 3 i 7 i 10. i 5 3 i 5 3 4 5 11. i i i i i 46 47 1. i i Part II More Practice with GCF and LCM 13. f(x) = x 4 8x 3 + 7x 50x + 50 and g(x) = 3x 5 6x 4 + 73x 3 44x 86x + 60. Find GCF(f(x), g(x)) and LCM(f(x), g(x)) given the hint that f(1 i) = 0. Definition: A pair of numbers or a pair of polynomials is called relatively prime if the pair has a greatest common factor (GCF) of 1. 14. Suppose f x and gx are polynomials. The zeros of f x are 3, 1, and 5. The zeros of gx are 4, 1, and 1. Are f x and gx relatively prime? Explain. 3 m and n x x 5x 8x 6. Find all the zeros (real and non-real) for both functions given the hint that m x and n x are not relatively prime. 4 3 15. Suppose x x x 4x 4x 4

October 5/6, 01.5 extra problems page 4 Part III: Problems about solutions and factors of polynomial functions 1. Consider the equation x 3 7.. a. How many solutions does this equation have in the real number system? b. According to the Fundamental Theorem of Algebra, how many solutions does this equation have in the complex number system? c. Find all solutions of the equation in the complex number system. a. Find a quadratic polynomial with real coefficients having ( + 5i) as a zero. Write your answer in standard form (that is, multiply the factors, don t leave in factored form). b. Find a cubic polynomial with real coefficients having 4 and (3 i) as zeros. Write your answer in standard form. Hint: Easiest if you multiply the factors from the non-real zeros first. 3. To answer these questions you will need to write polynomials that have complex numbers as coefficients. It is not possible to write answers having real coefficients. a. Find a linear polynomial with complex coefficients having ( + 5i) as a zero. b. Find a quadratic polynomial with complex coefficients having 4 and (3 i) as zeros. Write your answer in standard form. 4. You are given this information about polynomial P(x): P(x) is a degree 5 polynomial with real coefficients. The graph of P(x) for real numbers x is given on the grid. Its intercepts are at x = 3, x = 4, and y =. In the complex numbers, P(i+1) = 0. a. When P(x) is divided by (x 3), what is the remainder? b. Factor P(x) completely in the complex number system. c. Factor P(x) as completely as possible in the real number system. 5. Suppose f(x) = x 4 8x 3 + 7x 50x + 50. a. Verify that f(1 i) = 0. b. Factor f(x) completely in the complex number system. c. Factor f(x) as completely as possible in the real number system.

October 5/6, 01.5 extra problems page 5 Problems about incorrect uses of theorems Directions: The following argument reaches an incorrect conclusion. Identify the erroneous step in the argument, identifying which theorem was misused and explaining why the use is incorrect. Then, answer the follow-up question. 6. Argument: Let P be a polynomial with complex coefficients, having + 3i as a zero. Since non-real zeros occur in conjugate pairs, P cannot be a polynomial of degree 1. Follow-up question: Find polynomials of degrees 1,, and 3, each having + 3i as a zero. Make them polynomials with real coefficients, if possible. Problems about square roots and complex zeros 7. a. Find the square roots of ( 13 + 8i). That is, find a + bi having the property (a + bi) = ( 13 + 8i). b. Check your answer by typing ( 13 + 8i) on your calculator. 8. Consider this polynomial with complex coefficients: f(x) = x + 3i x + (1 i). a. Use the Quadratic Formula to find the zeros of f(x). Hint: The result of problem 7 will be needed. b. Write a complete factorization of f(x). ANSWERS: Parts I and II: 1. a. a b 0 3. a. 641 4. 4 3i 7 4i 79 b. 3 i 8 6i 5. 1 i i 5 4 3 6. +i and i 7. i 8. i 9 9 5 5 19 10 1 5 5 9. i 10. i 11. i 1. 1 i 51 51 14 14 13. GCF: x - x + 5; LCM: (x - x + 5)(x - 6x + 10)(3x 3-8x -5x + 6) 14. No - because (x - 1) is a common factor for both functions. 15. m(x): x 1 i, x i n(x): x = 3, x 1 i

October 5/6, 01.5 extra problems page 6 Part III Depending on the problem, what s shown here might be a complete solution, or just the final answer, or just a hint or a first step. We ll go over questions on Monday. I can also answer give some help by email when I am away on Thursday and Friday. 1. c. 3, 3 3 3 3 3 i, 3 i. a. x + 4x + 9 b. Begin from (x 4)(x (3 i)) (x (3 + i)). The easiest start is to multiply the second and third factors. That gives (x 4)(x 6x + 13). Then use the distributive property to get x 3 10x + 37x 5. 3. a. x ( + 5i) b. (x 4)(x (3 i)), then either distribute or apply the formula from a, to get x + ( 7 + i)x + (1 8i). 4. a. remainder = P(3) = 5 b. 1 (x + 3) (x 4)(x (1 + i))(x (1 i)) c. 1 36 36 (x + 3) (x 4)(x x + ) 5. b. (x (1 i))(x (1 + i))(x (3 + i))(x (3 i)) c. (x 6x + 10)(x x + 5) 6. Complex Conjugates Theorem does not apply when the coefficients are complex. (x ( + 3i)); x 4x + 13; x 3 4x + 13x 7. a. You need to solve the system a b = 13, ab = 8. Solve the second equation for a, substitute into the first equation. Multiply by b to get b 4 13b 16 = 0. Let x = b and apply the quadratic formula to x 13x 16 to get x = But x = b cannot be negative, so discard the negative possibility. 13 33. 13 33 Square root again to get b =. Perhaps the easiest way to get a is to repeat the process solving for the other variable. Get a = So a + bi = 13 33. 13 33 + 13 33 i or 13 33 13 33 i. 8. a. Quadratic formula gives the square root. 3i 13 8i, then substitute the answers to 7a in place of

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback