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9: Systems of Equations and Inequalities

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    • 9.1: Systems of Linear Equations - Gaussian Elimination
      This section introduces systems of linear equations and explains how to solve them using Gaussian elimination. It covers the process of converting a system into row-echelon form through row operations and back-substitution to find the solution. Examples demonstrate solving systems with unique, infinite, or no solutions, providing a foundational technique for linear algebra and applications.
    • 9.2: Systems of Linear Equations - Augmented Matrices
      We previously introduced Gaussian Elimination as a means of transforming a system of linear equations into triangular form with the ultimate goal of producing an equivalent system of linear equations which is easier to solve. If we study the process, we see that all of our moves are determined entirely by the coefficients of the variables involved, and not the variables themselves. In this section, we introduce a bookkeeping device to help us solve systems of linear equations.
    • 9.3: Systems of Non-Linear Equations and Inequalities
      In this section, we study systems of non-linear equations and inequalities. Unlike the systems of linear equations for which we have developed several algorithmic solution techniques, there is no general algorithm to solve systems of non-linear equations. Moreover, all of the usual hazards of non-linear equations like extraneous solutions and unusual function domains are once again present. Along with the tried and true techniques of substitution and elimination, we shall often need equal parts

    This page titled 9: Systems of Equations and Inequalities is shared under a CC BY-NC-SA 3.0 license and was authored, remixed, and/or curated by Carl Stitz & Jeff Zeager via source content that was edited to the style and standards of the LibreTexts platform.