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Matrices and Systems of Equations

Matrices and Systems of Equations. Definition of Matrix. If m and n are positive integers, an m x n matrix (read “m x n”) is a rectangular array In which each entry of the matrix is a real number. An m x n matrix has m rows and n columns. Matrix Order. Determine the order of each matrix.

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Matrices and Systems of Equations

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  1. Matrices and Systems of Equations

  2. Definition of Matrix If m and n are positive integers, an m x n matrix (read “m x n”) is a rectangular array In which each entry of the matrix is a real number. An m x n matrix has m rows and n columns.

  3. Matrix Order Determine the order of each matrix.

  4. Writing an Augmented Matrix Solution Begin by writing the linear system and aligning the variables. (on board)

  5. Writing an Augmented Matrix Continued

  6. Try this…

  7. Elementary Row Operations 1. Interchange two rows 2. Multiply a row by a nonzero constant 3. Add a multiple of a row to another row.

  8. Example

  9. Example

  10. Try this…

  11. Try this…

  12. Row-Echelon Form and Reduced Row-Echelon Form • A matrix in row-echelon form has the following properties. • Any rows consisting entirely of zeros occur at the bottom of the matrix. • For each row that does not consist entirely of zeros, the first nonzero entry is 1 (called a leading 1). • For two successive (nonzero) rows, the leading 1 in the higher row is farther to the left than the leading 1 in the lower row. • A matrix in row-echelon form is in reduced row-echelon form if every column that has a leading 1 has zeros in every position above and below its leading 1.

  13. Example Row-Echelon Form Reduced Row-Echelon Form

  14. Try this… Determine whether each matrix is in row-echelon form. If it is, determine whether the matrix is in reduced row-echelon form.

  15. Gaussian Elimination with Back-Substitution Write the augmented matrix of the system of linear equations. Use elementary row operations to rewrite the augmented matrix in row-echelon form. Write the system of linear equations corresponding to the matrix in row-echelon form and use back-substitution to find the solution.

  16. Example Will be completed on board. Solve the system.

  17. Try this… Solve the system.

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