Objectives Determine whether a matrix has an inverse.

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Presentation transcript:

Objectives Determine whether a matrix has an inverse. Solve systems of equations using inverse matrices.

A matrix can have an inverse only if it is a square matrix A matrix can have an inverse only if it is a square matrix. But not all square matrices have inverses. If the product of the square matrix A and the square matrix A–1 is the identity matrix I, then AA–1 = A–1 A = I, and A–1 is the multiplicative inverse matrix of A, or just the inverse of A. The identity matrix I has 1’s on the main diagonal and 0’s everywhere else. Remember!

Determine whether the two given matrices are inverses. The product is the identity matrix I, so the matrices are inverses.

Determine whether the two given matrices are inverses. Neither product is I, so the matrices are not inverses.

Determine whether the given matrices are inverses. The product is the identity matrix I, so the matrices are inverses.

brackets, such as . The determinant is a useful Every square matrix (n by n) has an associated value called its determinant, shown by straight vertical brackets, such as . The determinant is a useful measure, as you will see later in this lesson. The determinant of Matrix A may be denoted as det A or |A|. Don’t confuse the |A| notation with absolute value notation.

Find the determinant of each matrix. = 8 – 20 = 1 – The determinant is –12. The determinant is .

Find the determinant of each matrix. = 1 + 9 The determinant is 10. The determinant is

If the determinant is 0, is undefined If the determinant is 0, is undefined. So a matrix with a determinant of 0 has no inverse. It is called a singular matrix.

Find the inverse of the matrix if it is defined. First, check that the determinant is nonzero. 4(1) – 2(3) = 4 – 6 = –2. The determinant is –2, so the matrix has an inverse. The inverse of is

Find the inverse of the matrix if it is defined. The determinant is, , so B has no inverse.

Find the inverse of , if it is defined. First, check that the determinant is nonzero. 3(–2) – 3(2) = –6 – 6 = –12 The determinant is –12, so the matrix has an inverse.

You can use the inverse of a matrix to solve a system of equations You can use the inverse of a matrix to solve a system of equations. This process is similar to solving an equation such as 5x = 20 by multiplying each side by , the multiplicative inverse of 5. To solve systems of equations with the inverse, you first write the matrix equation AX = B, where A is the coefficient matrix, X is the variable matrix, and B is the constant matrix.

The matrix equation representing is shown. To solve AX = B, multiply both sides by the inverse A-1. A-1AX = A-1B Matrix multiplication is not commutative, so it is important to multiply by the inverse in the same order on both sides of the equation. A–1 comes first on each side IX = A-1B X = A-1B

Write the matrix equation for the system and solve. Step 1 Set up the matrix equation. A X = B Write: coefficient matrix  variable matrix = constant matrix. Step 2 Find the determinant. The determinant of A is –6 – 25 = –31.

Step 3 Find A–1. X = A-1 B Multiply. . The solution is (5, –2).

Write the matrix equation for and solve. Step 1 Set up the matrix equation. A X = B Step 2 Find the determinant. The determinant of A is 3 – 2 = 1.

Step 3 Find A-1. X = A-1 B Multiply. The solution is (3, 1).

Lesson Quiz: Part I 1. Determine whether and are inverses. yes 2. Find the inverse of , if it exists.

Lesson Quiz: Part II Write the matrix equation and solve. 3.