1. What we’re learning today:
Unit 1
Describe how you find your seat in a stadium when you go to a sports game or a concert.
What we’re learning today:
What matrices are
How to add, subtract and multiply matrices.

2. Discussion
The Matrix

3. Notes Matrix (Plural: Matrices)
A matrix is a rectangular array of numbers. Matrices are named using capital letters.
Example:

4. Discussion
The Matrix
Row 1
Row 2
Row n

5. The Matrix
Column 1
Column 2
Column m

6. Notes Dimensions of a Matrix
The dimensions of a matrix are the number of rows and the number of columns in the matrix.
Examples:
41
23

7. The Matrix
Entry
(Element)

8. Notes Matrix Entries AKA: Matrix Elements
The numbers inside a matrix are called entries or elements. The location or “address” of an entry is the number of the row and column where the entry is located.
Example:
The entry at row 2, column 3 is 1

9. Write down each matrix value to use later on in our lesson.
Practice
Write down each matrix value to use later on in our lesson.

10. Notes
Matrix Equality
Two matrices are equal if and only if they have identical dimensions and all corresponding entries are equal.
Example:

11. Notes Not Possible Matrix Addition and Subtraction
It is only possible to add or subtract two matrices, if they have identical dimensions. To find the sum, add corresponding entries. To find the difference, subtract corresponding entries.
Examples:
Matrix Addition and Subtraction
Not Possible

12. Find the difference without a calculator:
Practice
Find the difference without a calculator:

13. Use the Matrix values to find each sum or difference:
Practice
Use the Matrix values to find each sum or difference:
1) A + B
2) B + A
3) (A + B) + C
4) A + (B + C)

14. Notes Properties of Matrix Addition
For matrices A, B and C with identical dimensions:
Commutative: A + B = B + A
Associative: (A + B) + C = A + (B + C)
Additive Identity: A + 0 = A
Additive Inverse: A + -A = 0

15. Notes
The Zero Matrix
A matrix with dimension mn whose entries are all 0 is the additive identity for mn matrices.
Examples:

16. Notes Scalar Multiplication
A scalar is a real number. To multiply a scalar by a matrix, multiply the scalar by every entry in the matrix.
Example:
Scalar Multiplication

17. Use the matrix values to find each product:
Practice
Use the matrix values to find each product:
1) 5·B
2) -3·C
3) ½·D

18. Notes Matrix Multiplication
It is only possible to multiply two matrices when the number of columns in the first matrix is equal to the number of rows in the second matrix.
Example:
Matrix Multiplication
Not Possible
23 · 23
Possible
22 · 23

19. Notes 22 · 23 = 23 Matrix Multiplication
The dimensions of the product of two matrices will be the number of rows in the first matrix and the number of columns in the second matrix.
Example:
Matrix Multiplication
22 · 23 = 23

20. Notes
Matrix Multiplication
Row 1
Column 1

21. Notes
Matrix Multiplication
Row 1
Column 1

22. Notes
Matrix Multiplication
Row 1
Column 1

23. Notes
Matrix Multiplication
Row 1
Column 2

24. Notes
Matrix Multiplication
Row 1
Column 2

25. Notes
Matrix Multiplication
Row 1
Column 2

26. Notes
Matrix Multiplication
Row 1
Column 3

27. Notes
Matrix Multiplication
Row 1
Column 3

28. Notes
Matrix Multiplication
Row 1
Column 3

29. Notes
Matrix Multiplication
Row 2
Column 1

30. Notes
Matrix Multiplication
Row 2
Column 1

31. Notes
Matrix Multiplication
Row 2
Column 1

32. Notes
Matrix Multiplication
Row 2
Column 2

33. Notes
Matrix Multiplication
Row 2
Column 2

34. Notes
Matrix Multiplication
Row 2
Column 2

35. Notes
Matrix Multiplication
Row 2
Column 3

36. Notes
Matrix Multiplication
Row 2
Column 3

37. Notes
Matrix Multiplication
Row 2
Column 3

38. Notes
Matrix Multiplication
Any Questions?

39. Practice

40. Practice
Find each product:
1) C·D
2) D·C
3) D·A
4) A·C
5) C·A