Presentation is loading. Please wait.

Presentation is loading. Please wait.

Section 2.1 Determinants by Cofactor Expansion. THE DETERMINANT Recall from algebra, that the function f (x) = x 2 is a function from the real numbers.

Published byAshlyn Madison Cross Modified over 8 years ago

Similar presentations

Presentation on theme: "Section 2.1 Determinants by Cofactor Expansion. THE DETERMINANT Recall from algebra, that the function f (x) = x 2 is a function from the real numbers."— Presentation transcript:

1 Section 2.1 Determinants by Cofactor Expansion

2 THE DETERMINANT Recall from algebra, that the function f (x) = x 2 is a function from the real numbers into the real numbers. In a similar way, the determinant is a function from square matrices into the real numbers; that is, the input is a square matrix and the output is a real number. Notation: The determinant of the matrix A is notated by det(A) or |A|.

3 Recall that the 2×2 matrix is invertible if ad − bc ≠ 0. The determinant of the matrix A is det(A) = |A| = ad − bc. Thus, DETERMINANT OF A 2×2 MATRIX

4 MINORS AND COFACTORS If A is a square matrix, then the minor of entry a ij is denoted by M ij and is defined to be the determinant of the submatrix that remains after the i th row and j th column are deleted from A. The number (−1) i + j M ij is denoted by C ij and is called the cofactor of entry a ij.

5 COFACTOR EXPANSION Theorem 2.1.1: The determinant of and n×n matrix A can be computed by multiplying the entries in any row (or any column) by their cofactors and adding the resulting products; that is, for each 1 ≤ i ≤ n and 1 ≤ j ≤ n,

6 A COMMENT ON COFACTOR EXPANSION When computing the determinant by cofactor expansion, it is helpful to expand along the row or column that contains the most zeros.

7 MULTIPLYING BY COFACTORS OF DIFFERENT ROWS If one multiplies the entries in any row by the corresponding cofactors from a different row, the sum of these products is always zero.

8 ADJOINT OF A MATRIX If A is any n×n matrix and C ij is the cofactor of a ij, then the matrix is called the matrix of cofactors from A. The transpose of this matrix is called the adjoint of A and is denoted by adj(A).

9 INVERSE OF A MATRIX USING ITS ADJOINT Theorem 1.2.1: If A is an invertible matrix, then

10 DETERMINANTS AND TRIANGULAR MATRICES Theorem 2.1.3: If A is an n×n triangular matrix (upper triangular, lower triangular, or diagonal), then det(A) is the product of the entries on the main diagonal of the matrix; that is

11 CRAMER’S RULE If Ax = b is a system of linear equations in n unknown such that det(A) ≠ 0, then the system has a unique solution. This solution is where A j is the matrix obtained by replacing the entries in the j th column of A by the entries in the matrix b.

Download ppt "Section 2.1 Determinants by Cofactor Expansion. THE DETERMINANT Recall from algebra, that the function f (x) = x 2 is a function from the real numbers."

Similar presentations

Elementary Linear Algebra Anton & Rorres, 9th Edition

Elementary Linear Algebra Anton & Rorres, 9th Edition
Applied Informatics Štefan BEREŽNÝ

Applied Informatics Štefan BEREŽNÝ
Chapter 3 Determinants and Eigenvectors 大葉大學 資訊工程系 黃鈴玲 Linear Algebra.

Chapter 3 Determinants and Eigenvectors 大葉大學 資訊工程系 黃鈴玲 Linear Algebra.
5.4. Additional properties Cofactor, Adjoint matrix, Invertible matrix, Cramers rule. (Cayley, Sylvester….)

5.4. Additional properties Cofactor, Adjoint matrix, Invertible matrix, Cramers rule. (Cayley, Sylvester….)
Chap. 3 Determinants 3.1 The Determinants of a Matrix

Chap. 3 Determinants 3.1 The Determinants of a Matrix
1.7 Diagonal, Triangular, and Symmetric Matrices.

1.7 Diagonal, Triangular, and Symmetric Matrices.
Section 3.1 The Determinant of a Matrix. Determinants are computed only on square matrices. Notation: det(A) or |A| For 1 x 1 matrices: det( [k] ) = k.

Section 3.1 The Determinant of a Matrix. Determinants are computed only on square matrices. Notation: det(A) or |A| For 1 x 1 matrices: det( [k] ) = k.
Autar Kaw Humberto Isaza Transforming Numerical Methods Education for STEM Undergraduates.

Autar Kaw Humberto Isaza Transforming Numerical Methods Education for STEM Undergraduates.
Matrices and Systems of Equations

Matrices and Systems of Equations
Chapter 2 Matrices Definition of a matrix.

Chapter 2 Matrices Definition of a matrix.
Economics 2301 Matrices Lecture 13.

Economics 2301 Matrices Lecture 13.
Matrices and Determinants

Matrices and Determinants
Chapter 5 Determinants.

Chapter 5 Determinants.
Linear Algebra With Applications by Otto Bretscher. Page 286. 1. The Determinant of any diagonal nxn matrix is the product of its diagonal entries. True.

Linear Algebra With Applications by Otto Bretscher. Page The Determinant of any diagonal nxn matrix is the product of its diagonal entries. True.
Spring 2013 Solving a System of Linear Equations Matrix inverse Simultaneous equations Cramer’s rule Second-order Conditions Lecture 7.

Spring 2013 Solving a System of Linear Equations Matrix inverse Simultaneous equations Cramer’s rule Second-order Conditions Lecture 7.
1 資訊科學數學 14 : Determinants & Inverses 陳光琦助理教授 (Kuang-Chi Chen)

1 資訊科學數學 14 : Determinants & Inverses 陳光琦助理教授 (Kuang-Chi Chen)
5.3 - 1 10 TH EDITION LIAL HORNSBY SCHNEIDER COLLEGE ALGEBRA.

TH EDITION LIAL HORNSBY SCHNEIDER COLLEGE ALGEBRA.
 Row and Reduced Row Echelon  Elementary Matrices.

 Row and Reduced Row Echelon  Elementary Matrices.
Matrix Inversion.

Matrix Inversion.
Chapter 2 Determinants. The Determinant Function –The 2  2 matrix is invertible if ad-bc  0. The expression ad- bc occurs so frequently that it has.

Chapter 2 Determinants. The Determinant Function –The 2  2 matrix is invertible if ad-bc  0. The expression ad- bc occurs so frequently that it has.

Similar presentations

Ads by Google