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10.4 Matrix Algebra 1.Matrix Notation 2.Sum/Difference of 2 matrices 3.Scalar multiple 4.Product of 2 matrices 5.Identity Matrix 6.Inverse of a matrix.

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Presentation on theme: "10.4 Matrix Algebra 1.Matrix Notation 2.Sum/Difference of 2 matrices 3.Scalar multiple 4.Product of 2 matrices 5.Identity Matrix 6.Inverse of a matrix."— Presentation transcript:

1 10.4 Matrix Algebra 1.Matrix Notation 2.Sum/Difference of 2 matrices 3.Scalar multiple 4.Product of 2 matrices 5.Identity Matrix 6.Inverse of a matrix a) Verify the inverse of a matrix b)Finding the inverse 7. Solve a system using inverse matrices

2 1. Matrix Notation Notation Notation: refers to the element in row i, column j of a matrix A. A matrix with m rows and n columns is called an m by n matrix. Notation Notation: The order (dimensions) may also be written m x n. Example: Given the Matrix 1.Identify Notation Notation: refers to the element in row i, column j of a matrix A. A matrix with m rows and n columns is called an m by n matrix. Notation Notation: The order (dimensions) may also be written m x n. Example: Given the Matrix 1.Identify

3 2. Sum and Difference of 2 matrices To add/subtract… We add corresponding elements. Evaluate: To add/subtract… We add corresponding elements. Evaluate: Note: The matrices must be same dimensions! If what is A + C ? If what is A + C ?

4 2. Sum and Difference of 2 matrices Properties The properties of addition also hold for matrix addition. Properties The properties of addition also hold for matrix addition. On you own… Review Section 10.4 p. 770-772 for a summary of the properties On you own… Review Section 10.4 p. 770-772 for a summary of the properties

5 3. Scalar Multiplication We can multiply matrix by a number (known as scalar). kA implies the number k is multiplied times every element in A :Example: Find 1) 2) 3) 4) We can multiply matrix by a number (known as scalar). kA implies the number k is multiplied times every element in A :Example: Find 1) 2) 3) 4) On you own… Review Section 10.4 p. 773 for a summary of the scalar multiplication properties On you own… Review Section 10.4 p. 773 for a summary of the scalar multiplication properties

6 4. Matrix Multiplication Multiplication is Multiplication is NOT like addition (where we added corresponding elements). You will NOT multiply corresponding elements. Matrix multiplication is performed row-by-column : Multiplication is Multiplication is NOT like addition (where we added corresponding elements). You will NOT multiply corresponding elements. Matrix multiplication is performed row-by-column :

7 Evaluate Evaluate 4. Matrix Multiplication

8 rows columns rows columns rows columns rows columns Example: is not possible when columns in A does not equal rows in B: rows columns rows columns rows columns rows columns Example: is not possible when columns in A does not equal rows in B: On your own… Review Section 10.4 p. 777 for a summary of the multiplication properties On your own… Review Section 10.4 p. 777 for a summary of the multiplication properties Important: Matrix multiplication can only be performed if The number of columns in first matrix is equal to number of rows in second! Important: Matrix multiplication can only be performed if The number of columns in first matrix is equal to number of rows in second!

9 4. Matrix Multiplication Your turn to practice:

10 5. Identity Matrix Definition: The identity Matrix is a square matrix that has 1’s on diagonal and 0’s elsewhere An identity matrix has the same properties as 1 in the real numbers. Definition: The identity Matrix is a square matrix that has 1’s on diagonal and 0’s elsewhere An identity matrix has the same properties as 1 in the real numbers.

11 5. Identity Matrix Identity Property Example: Identity Property Example:

12 6. Inverse of a Matrix The Inverse is the matrix A is, “A inverse” and satisfies Example: We can show the inverse of is We must show and The Inverse is the matrix A is, “A inverse” and satisfies Example: We can show the inverse of is We must show and Definition: If a matrix does not have an inverse, it is called singular Definition: If a matrix does not have an inverse, it is called singular

13 6. a) Verifying the Inverse of a Matrix The Multiplicative Inverse of the matrix is, The Multiplicative Inverse of the matrix A is, “A inverse” and satisfies “A inverse” and satisfies Example: We can show the inverse of is We must show and The Multiplicative Inverse of the matrix is, The Multiplicative Inverse of the matrix A is, “A inverse” and satisfies “A inverse” and satisfies Example: We can show the inverse of is We must show and Definition: If a matrix does not have an inverse, it is called singular Definition: If a matrix does not have an inverse, it is called singular

14 6. b) Finding the Inverse of a Matrix To find the inverse: 1) Form the augmented matrix 2) Transform to reduced row echelon form (Gauss-Jordan). 3) The identity matrix will magically appear on the right hand side of the bar! This is To find the inverse: 1) Form the augmented matrix 2) Transform to reduced row echelon form (Gauss-Jordan). 3) The identity matrix will magically appear on the right hand side of the bar! This is Example: Find the multiplicative inverse of Verify it when finished! Example: Find the multiplicative inverse of Verify it when finished!

15 6. b) Finding the Inverse of a Matrix Example: Find the multiplicative inverse of Verify when finished! Your turn… Find the inverse for Example: Find the multiplicative inverse of Verify when finished! Your turn… Find the inverse for

16 7. Solve a system of linear equations using the inverse matrix method If a system has a unique solution where A is the coefficient matrix, X and B are 1 column matrices. then is the solution. 1)Find 2)Multiply 1)The result in 2) is the solution If a system has a unique solution where A is the coefficient matrix, X and B are 1 column matrices. then is the solution. 1)Find 2)Multiply 1)The result in 2) is the solution

17 7. Solve a linear system using inverse Matrix Example: Solve the system: Note: We found in an earlier example Example: Solve the system: Note: We found in an earlier example

18 7. Solve a linear system using inverse Matrix Your turn: Solve the system: Your turn: Solve the system:

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