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Complex Numbers MATH 160, Precalculus J. Robert Buchanan Department of Mathematics Fall 2011 J. Robert Buchanan Complex Numbers Objectives In this lesson we will learn to: use the imaginary unit i to write complex numbers, add, subtract, and multiply complex numbers, use complex conjugates to write the quotient of two complex numbers in standard form, find complex solutions to quadratic equations. J. Robert Buchanan Complex Numbers Motivation We would like to be able to describe all the solutions of all polynomial equations, yet a very simple one has no real number solutions. x2 + 1 = 0 x 2 = −1 Since x 2 ≥ 0 for all real numbers x, there is no real solution to this equation. J. Robert Buchanan Complex Numbers Motivation We would like to be able to describe all the solutions of all polynomial equations, yet a very simple one has no real number solutions. x2 + 1 = 0 x 2 = −1 Since x 2 ≥ 0 for all real numbers x, there is no real solution to this equation. Thus we must expand our number system by using the imaginary unit, √ i = −1. Thus i 2 = −1 and the solutions to the equation above can be written as x = i and x = −i. J. Robert Buchanan Complex Numbers Complex Numbers Definition If a and b are real numbers, the number a + bi is a complex number, and it is said to be written in standard form. If b = 0, the number a + bi = a is a real number. If b 6= 0, the number a + bi is called an imaginary number. A number of the form bi with b 6= 0 is called a pure imaginary number. J. Robert Buchanan Complex Numbers Complex Numbers Definition If a and b are real numbers, the number a + bi is a complex number, and it is said to be written in standard form. If b = 0, the number a + bi = a is a real number. If b 6= 0, the number a + bi is called an imaginary number. A number of the form bi with b 6= 0 is called a pure imaginary number. The real numbers R are a subset of the complex numbers C. J. Robert Buchanan Complex Numbers Arithmetic of Complex Numbers (1 of 2) Equality Two complex numbers a + bi and c + di, written in standard form, are equal to each other a + bi = c + di if and only if a = c and b = d. J. Robert Buchanan Complex Numbers Arithmetic of Complex Numbers (1 of 2) Equality Two complex numbers a + bi and c + di, written in standard form, are equal to each other a + bi = c + di if and only if a = c and b = d. Addition and Subtraction If a + bi and c + di are two complex numbers, written in standard form, their sum and difference are defined as follows. (a + bi) + (c + di) = (a + c) + (b + d)i (a + bi) − (c + di) = (a − c) + (b − d)i J. Robert Buchanan Complex Numbers Arithmetic of Complex Numbers (2 of 2) Identities and Inverses The additive identity element in the complex number system is 0 = 0 + 0i. The additive inverse of the complex number a + bi is −a − bi. J. Robert Buchanan Complex Numbers Examples Perform the addition or subtraction as appropriate and write the result in standard form. (13 − 2i) + (−5 + 6i) = (3 + 2i) − (6 + 13i) = √ √ (8 + −18) − (4 + 3 2 i) = 25 + (−10 + 11i) + 15i = J. Robert Buchanan Complex Numbers Examples Perform the addition or subtraction as appropriate and write the result in standard form. (13 − 2i) + (−5 + 6i) = 8 + 4i (3 + 2i) − (6 + 13i) = √ √ (8 + −18) − (4 + 3 2 i) = 25 + (−10 + 11i) + 15i = J. Robert Buchanan Complex Numbers Examples Perform the addition or subtraction as appropriate and write the result in standard form. (13 − 2i) + (−5 + 6i) = 8 + 4i (3 + 2i) − (6 + 13i) = −3 − 11i √ √ (8 + −18) − (4 + 3 2 i) = 4 25 + (−10 + 11i) + 15i = 15 + 26i J. Robert Buchanan Complex Numbers Multiplication Multiplication of complex numbers is carried out using the FOIL Method. (a + bi)(c + di) = (ac) + (ad)i + (bc)i + (bd)i 2 = (ac) + (ad + bc)i − (bd) = (ac − bd) + (ad + bc)i J. Robert Buchanan Complex Numbers Multiplication Multiplication of complex numbers is carried out using the FOIL Method. (a + bi)(c + di) = (ac) + (ad)i + (bc)i + (bd)i 2 = (ac) + (ad + bc)i − (bd) = (ac − bd) + (ad + bc)i The usual properties of arithmetic hold for complex numbers: associative property commutative property distributive property J. Robert Buchanan Complex Numbers Examples Multiply the numbers below and write the result in standard form. (13 − 2i)(−5 + 6i) = (3 + 2i)(6 + 13i) = √ √ (8 + 3 2i)(4 + 3 2 i) = (−10 + 11i)(15i) = J. Robert Buchanan Complex Numbers Examples Multiply the numbers below and write the result in standard form. (13 − 2i)(−5 + 6i) = −53 + 88i (3 + 2i)(6 + 13i) = √ √ (8 + 3 2i)(4 + 3 2 i) = (−10 + 11i)(15i) = J. Robert Buchanan Complex Numbers Examples Multiply the numbers below and write the result in standard form. (13 − 2i)(−5 + 6i) = −53 + 88i (3 + 2i)(6 + 13i) = −8 + 51i √ √ √ (8 + 3 2i)(4 + 3 2 i) = 14 + 36 2i (−10 + 11i)(15i) = −165 − 150i J. Robert Buchanan Complex Numbers Complex Conjugates Definition The complex conjugate of the complex number a + bi is the complex number a − bi. J. Robert Buchanan Complex Numbers Complex Conjugates Definition The complex conjugate of the complex number a + bi is the complex number a − bi. Note: (a + bi)(a − bi) = a2 + b2 a real number. J. Robert Buchanan Complex Numbers Quotients of Complex Numbers The quotient of two complex numbers can be written in standard form by multiplying both numerator and denominator by the complex conjugate of the denominator. a + bi c + di = = = a + bi c − di c + di c − di (a + bi)(c − di) (c + di)(c − di) (ac + bd) + (bc − ad)i c2 + d 2 J. Robert Buchanan Complex Numbers Example Perform the indicated operation and write the result in standard form. 2+i 1+i − = 3 − 2i 3 + 8i J. Robert Buchanan Complex Numbers Example Perform the indicated operation and write the result in standard form. 2+i 1+i (2 + i)(3 + 8i) (1 + i)(3 − 2i) − = − 3 − 2i 3 + 8i (3 − 2i)(3 + 8i) (3 − 2i)(3 + 8i) −2 + 19i 5+i = − 25 + 18i 25 + 18i −2 + 19i − (5 + i) = 25 + 18i −7 + 18i = 25 + 18i (−7 + 18i)(25 − 18i) = (25 + 18i)(25 − 18i) 149 + 576i = 625 + 324 149 576 = + i 949 949 J. Robert Buchanan Complex Numbers Complex Solution to Quadratic Equations When using the Quadratic Formula to solve a quadratic equation, we can use complex numbers and the imaginary root to express the solutions. √ −b ± b2 − 4ac 2 0 = ax + bx + c ⇐⇒ x = 2a J. Robert Buchanan Complex Numbers Complex Solution to Quadratic Equations When using the Quadratic Formula to solve a quadratic equation, we can use complex numbers and the imaginary root to express the solutions. √ −b ± b2 − 4ac 2 0 = ax + bx + c ⇐⇒ x = 2a Example Use the Quadratic Formula to solve the following equation. 0 = 2x 2 − 5x + 7 J. Robert Buchanan Complex Numbers Complex Solution to Quadratic Equations When using the Quadratic Formula to solve a quadratic equation, we can use complex numbers and the imaginary root to express the solutions. √ −b ± b2 − 4ac 2 0 = ax + bx + c ⇐⇒ x = 2a Example Use the Quadratic Formula to solve the following equation. 0 = 2x 2 − 5x + 7 p −(−5) ± (−5)2 − 4(2)(7) x = 2(2) √ 5 ± 25 − 56 = √ √4 5 ± −31 5 ± 31 i = = 4 4 J. Robert Buchanan Complex Numbers Homework Read Section 2.4. Exercises: 1, 5, 9, 13, . . . , 81, 85 J. Robert Buchanan Complex Numbers
