1. Splash Screen

2. Five-Minute Check (over Lesson 3–5) Then/Now
Example 1: Dimensions of Matrix Products
Key Concept: Multiplying Matrices
Example 2: Multiply Square Matrices
Example 3: Real-World Example: Multiply Matrices
Example 4: Test of the Commutative Property
Example 5: Test of the Distributive Property
Key Concept: Properties of Matrix Multiplication
Lesson Menu

3. Use matrices B and D to find D – B.
5-Minute Check 1

4. Use matrices B and D to find 4B.
5-Minute Check 2

5. Use matrices B and D to find 2B + 3D.
5-Minute Check 3

6. The table shows weekday ticket prices for an amusement park
The table shows weekday ticket prices for an amusement park. Ticket prices are doubled on weekends. Find the weekend ticket prices and express them as a matrix.
A. B.
C. D.
5-Minute Check 4

7. Which of the following sums cannot be simplified?
5-Minute Check 5

8. You multiplied matrices by a scalar.
Multiply matrices.
Use the properties of matrix multiplication.
Then/Now

9. Dimensions of Matrix Products
A. Determine whether the product of A3×4 and B4×2 is defined. If so, state the dimensions of the product.
A ● B = AB
3 × 4 4 × 2 3 × 2
Answer: The inner dimensions are equal so the matrix product is defined. The dimensions of the product are 3 × 2.
Example 1

10. Dimensions of Matrix Products
B. Determine whether the product of A3×2 and B4×3 is defined. If so, state the dimensions of the product.
A ● B
3 × 2 4 × 3
Answer: The inner dimensions are not equal, so the matrix product is not defined.
Example 1

11. D. The matrix product is not defined.
A. Determine whether the matrix product is defined. If so, what are the dimensions of the product? A3×2 and B2×3
A. 3 × 3
B. 2 × 2
C. 3 × 2
D. The matrix product is not defined.
Example 1

12. D. The matrix product is not defined.
B. Determine whether the matrix product is defined. If so, what are the dimensions of the product? A2×3 and B2×3
A. 2 × 3
B. 3 × 2
C. 2 × 2
D. The matrix product is not defined.
Example 1

13. Concept

14. Multiply Square Matrices
Example 2

15. Multiply Square Matrices
Step 1 Multiply the numbers in the first row of R by the numbers in the first column of S, add the products, and put the result in the first row, first column of RS.
Example 2

16. Multiply Square Matrices
Step 2 Multiply the numbers in the first row of R by the numbers in the second column of S, add the products, and put the result in the first row, second column of RS.
Example 2

17. Multiply Square Matrices
Step 3 Multiply the numbers in the second row of R by the numbers in the first column of S, add the products, and put the result in the second row, first column of RS.
Example 2

18. Multiply Square Matrices
Step 4 Multiply the numbers in the second row of R by the numbers in the second column of S, add the products, and put the result in the second row, second column of RS.
Example 2

19. Step 5 Simplify the product matrix.
Multiply Square Matrices
Step 5 Simplify the product matrix.
Answer:
Example 2

20. A. B. C. D.
Example 2

21. Multiply Matrices
CHESS Three teams competed in the final round of the Chess Club’s championships. For each win, a team was awarded 3 points and for each draw a team received 1 point. Which team won the tournament?
Understand The final scores can be found by multiplying the wins and draws by the points for each.
Example 3

22. Multiply Matrices
Plan Write the results from the championship and the points in matrix form. Set up the matrices so that the number of rows in the points matrix equals the number of columns in the results matrix.
Results Points
Example 3

23. Solve Multiply the matrices.
Multiply Matrices
Solve Multiply the matrices.
Write an equation.
Multiply columns by rows.
Example 3

24. The labels for the product matrix are shown below.
Multiply Matrices
Simplify.
The labels for the product matrix are shown below.
Blue
Red
Green
Total Points
Example 3

25. Answer: The red team won the championship with a total of 21 points.
Multiply Matrices
Answer: The red team won the championship with a total of 21 points.
Check R is a 3 × 2 matrix and P is a 2 × 1 matrix. Their product should be a 3 × 1 matrix.
Example 3

26. BASKETBALL In Thursday night’s basketball game, three of the players made the points listed below in the chart. They scored 1 point for the free-throws, 2 points for the 2-point shots, and 3 points for the 3-points shots. Who scored the most points?
A. Warton
B. Bryant
C. Chris
D. none of the above
Example 3

27. Multiply columns by rows.
Test of the Commutative Property
A. Find KL if K
Substitution
Multiply columns by rows.
Simplify.
Example 4

28. Test of the Commutative Property
Answer:
Example 4

29. Multiply columns by rows.
Test of the Commutative Property
B. Find LK if K
Substitution
Multiply columns by rows.
Example 4

30. Test of the Commutative Property
Simplify.
Answer:
Example 4

31. A. B. C. D.
Example 4

32. A. B. C. D.
Example 4

33. Add corresponding elements.
Test of the Distributive Property A.
Substitution
Add corresponding elements.
Example 5

34. Multiply columns by rows.
Test of the Distributive Property
Multiply columns by rows.
Answer:
Example 5

35. Multiply columns by rows.
Test of the Distributive Property
Substitution
Multiply columns by rows.
Example 5

36. Add corresponding elements.
Test of the Distributive Property
Simplify.
Add corresponding elements.
Answer:
Example 5

37. A. B.
C. D.
Example 5

38. A. B.
C. D.
Example 5

39. Concept

40. End of the Lesson