Lesson 11 NYS COMMON CORE MATHEMATICS CURRICULUM M2 PRECALCULUS AND ADVANCED TOPICS Lesson 11: Matrix Addition Is Commutative Classwork Opening Exercise Kiamba thinks π΄ + π΅ = π΅ + π΄ for all 2 × 2 matrices. Rachel thinks it is not always true. Who is correct? Explain. Exercises 1β6 1. In two-dimensional space, let π΄ be the matrix representing a rotation about the origin through an angle of 45°, and 1 let π΅ be the matrix representing a reflection about the π₯-axis. Let π₯ be the point ( ). 1 a. Write down the matrices π΄, π΅, and π΄ + π΅. Lesson 11: Date: Matrix Addition Is Commutative 7/31/17 © 2015 Common Core, Inc. Some rights reserved. commoncore.org S.80 This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License. Lesson 11 NYS COMMON CORE MATHEMATICS CURRICULUM M2 PRECALCULUS AND ADVANCED TOPICS 2. b. Write down the image points of π΄π₯, π΅π₯, and (π΄ + π΅)π₯, and plot them on graph paper. c. What do you notice about (π΄ + π΅)π₯ compared to π΄π₯ and π΅π₯? For three matrices of equal size, π΄, π΅, and πΆ, does it follow that π΄ + (π΅ + πΆ) = (π΄ + π΅) + πΆ? a. Determine if the statement is true geometrically. Let π΄ be the matrix representing a reflection across the π¦-axis. Let π΅ be the matrix representing a counterclockwise rotation of 30°. Let πΆ be the matrix representing 1 a reflection about the π₯-axis. Let π₯ be the point ( ). 1 b. Confirm your results algebraically. Lesson 11: Date: Matrix Addition Is Commutative 7/31/17 © 2015 Common Core, Inc. Some rights reserved. commoncore.org S.81 This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License. NYS COMMON CORE MATHEMATICS CURRICULUM Lesson 11 M2 PRECALCULUS AND ADVANCED TOPICS c. What do your results say about matrix addition? 3. π₯ 0 If π₯ = (π¦), what are the coordinates of a point π¦ with the property π₯ + π¦ is the origin π = (0)? π§ 0 4. 11 Suppose π΄ = (β34 8 5. β5 6 β542 2 19), and matrix π΅ has the property that π΄π₯ + π΅π₯ is the origin. What is the matrix B? 0 For three matrices of equal size, π΄, π΅, and πΆ, where π΄ represents a reflection across the line π¦ = π₯, π΅ represents a 1 counterclockwise rotation of 45°, πΆ represents a reflection across the π¦-axis, and π₯ = ( ): 2 a. Show that matrix addition is commutative: π΄π₯ + π΅π₯ = π΅π₯ + πΆπ₯. Lesson 11: Date: Matrix Addition Is Commutative 7/31/17 © 2015 Common Core, Inc. Some rights reserved. commoncore.org S.82 This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License. Lesson 11 NYS COMMON CORE MATHEMATICS CURRICULUM M2 PRECALCULUS AND ADVANCED TOPICS b. 6. Show that matrix addition is associative: π΄π₯ + (π΅π₯ + πΆπ₯) = (π΄π₯ + π΅π₯) + πΆπ₯. Let π΄, π΅, πΆ, and π· be matrices of the same dimensions. Use the commutative property of addition of two matrices to prove π΄ + π΅ + πΆ = πΆ + π΅ + π΄. Lesson 11: Date: Matrix Addition Is Commutative 7/31/17 © 2015 Common Core, Inc. Some rights reserved. commoncore.org S.83 This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License. Lesson 11 NYS COMMON CORE MATHEMATICS CURRICULUM M2 PRECALCULUS AND ADVANCED TOPICS Problem Set 1. 2. 3. Let π΄ be matrix transformation representing a rotation of 45° about the origin and π΅ be a reflection across the π¦-axis. Let π₯ = (3,4). a. Represent π΄ and π΅ as matrices, and find π΄ + π΅. b. Represent π΄π₯ and π΅π₯ as matrices, and find (π΄ + π΅)π₯. c. Graph your answer to part (b). d. Draw the parallelogram containing π΄π₯, π΅π₯, and (π΄ + π΅)π₯. Let π΄ be matrix transformation representing a rotation of 300° about the origin and π΅ be a reflection across the π₯-axis. Let π₯ = (2, β5). a. Represent π΄ and π΅ as matrices, and find π΄ + π΅. b. Represent π΄π₯ and π΅π₯ as matrices, and find (π΄ + π΅)π₯. c. Graph your answer to part (b). d. Draw the parallelogram containing π΄π₯, π΅π₯, and (π΄ + π΅)π₯. Let A, B, C, and D be matrices of the same dimensions. a. Use the associative property of addition for three matrices to prove (π΄ + π΅) + (πΆ + π·) = π΄ + (π΅ + πΆ) + π·. b. Make an argument for the associative and commutative properties of addition of matrices to be true for finitely many matrices being added. 4. Let π΄ be an π × π matrix with element in the π th row, πth column πππ , and π΅ be an π × π matrix with element in the π th row, πth column πππ . Present an argument that π΄ + π΅ = π΅ + π΄. 5. For integers π₯, π¦, define π₯ β π¦ = π₯ β π¦ + 1, read βπ₯ plus π¦β where π₯ β π¦ is defined normally. 6. a. Is this form of addition commutative? Explain why or why not. b. Is this form of addition associative? Explain why or why not. For integers π₯, π¦, define π₯ β π¦ = π₯. a. Is this form of addition commutative? Explain why or why not. b. Is this form of addition associative? Explain why or why not. Lesson 11: Date: Matrix Addition Is Commutative 7/31/17 © 2015 Common Core, Inc. Some rights reserved. commoncore.org S.84 This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License.
© Copyright 2026 Paperzz