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Augmented Matrix

from class:

Intermediate Algebra

Definition

An augmented matrix is a matrix that is formed by combining the coefficient matrix of a system of linear equations with the column of constants on the right-hand side of the equations. It is a convenient way to represent and solve systems of linear equations using matrix operations.

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5 Must Know Facts For Your Next Test

  1. The augmented matrix allows for the efficient representation and manipulation of a system of linear equations using matrix methods.
  2. The number of rows in an augmented matrix corresponds to the number of equations in the system, and the number of columns corresponds to the number of variables plus one.
  3. Solving a system of linear equations using an augmented matrix involves performing elementary row operations to transform the matrix into reduced row echelon form.
  4. The solutions to the system of linear equations can be read directly from the reduced row echelon form of the augmented matrix.
  5. Augmented matrices are used in the context of solving systems of linear equations with two variables (Section 4.1), three variables (Section 4.4), and in matrix methods (Section 4.5).

Review Questions

  • Explain how an augmented matrix is constructed and how it relates to a system of linear equations.
    • An augmented matrix is constructed by combining the coefficient matrix of a system of linear equations with the column of constants on the right-hand side of the equations. The number of rows in the augmented matrix corresponds to the number of equations in the system, and the number of columns corresponds to the number of variables plus one. This representation allows for the efficient manipulation and solution of the system of linear equations using matrix operations and row reduction techniques.
  • Describe the process of solving a system of linear equations using an augmented matrix.
    • To solve a system of linear equations using an augmented matrix, you first construct the augmented matrix by combining the coefficient matrix and the column of constants. Then, you perform a series of elementary row operations, such as row addition, row scaling, and row swapping, to transform the augmented matrix into reduced row echelon form. The solutions to the system of linear equations can be read directly from the reduced row echelon form of the augmented matrix, with the variables represented by the columns and the constants represented by the final column.
  • Analyze the relationship between the rank of an augmented matrix and the number of solutions to a system of linear equations.
    • The rank of an augmented matrix is directly related to the number of solutions to the corresponding system of linear equations. If the rank of the augmented matrix is equal to the number of variables, then the system has a unique solution. If the rank of the augmented matrix is less than the number of variables, then the system has infinitely many solutions. If the rank of the augmented matrix is greater than the number of variables, then the system has no solution. By analyzing the rank of the augmented matrix, you can determine the nature and number of solutions to the system of linear equations.
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