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  • https://math.libretexts.org/Courses/Mission_College/Math_4B%3A_Differential_Equations_(Kravets)/04%3A_Linear_Second_Order_Equations/4.05%3A_Nonhomgeneous_Linear_Equations
    This section presents the theory of nonhomogeneous linear equations.
  • https://math.libretexts.org/Courses/Chabot_College/Math_4%3A_Differential_Equations_(Dinh)/04%3A_Linear_Higher_Order_Differential__Equations/4.05%3A_Second_Order_Nonhomogeneous_Linear_Equations_(Polynomial_Forcing)
    This section presents the theory of nonhomogeneous linear equations.
  • https://math.libretexts.org/Under_Construction/Purgatory/Differential_Equations_and_Linear_Algebra_(Zook)/04%3A_Linear_Second_Order_Equations/4.03%3A_Nonhomogeneous_Linear_Equations
    This section presents the theory of nonhomogeneous linear equations.
  • https://math.libretexts.org/Courses/Cosumnes_River_College/Math_420%3A_Differential_Equations_(Breitenbach)/05%3A_Linear_Second_Order_Equations/5.04%3A_Nonhomogeneous_Linear_Equations
    Let’s agree that this always means that we want the general solution (or a fundamental set of solutions, as the case may be) on every open interval on which p, q, and f are continuous if t...Let’s agree that this always means that we want the general solution (or a fundamental set of solutions, as the case may be) on every open interval on which p, q, and f are continuous if the equation is of the form Equation ???, or on which P0, P1, P2, and F are continuous and P0 has no zeros, if the equation is of the form Equation ???. We leave it to you to identify these intervals in specific examples and exercises.
  • https://math.libretexts.org/Courses/Mt._San_Jacinto_College/Differential_Equations_(No_Linear_Algebra_Required)/04%3A__Higher_Order_Linear_ODEs/4.02%3A_Nonhomogeneous_Linear_Second_Order_Equations
    Let’s agree that this always means that we want the general solution (or a fundamental set of solutions, as the case may be) on every open interval on which p, q, and f are continuous if t...Let’s agree that this always means that we want the general solution (or a fundamental set of solutions, as the case may be) on every open interval on which p, q, and f are continuous if the equation is of the form Equation ???, or on which P0, P1, P2, and F are continuous and P0 has no zeros, if the equation is of the form Equation ???. We leave it to you to identify these intervals in specific examples and exercises.
  • https://math.libretexts.org/Bookshelves/Differential_Equations/Elementary_Differential_Equations_with_Boundary_Value_Problems_(Trench)/05%3A_Linear_Second_Order_Equations/5.03%3A_Nonhomogeneous_Linear_Equations
    This section presents the theory of nonhomogeneous linear equations.
  • https://math.libretexts.org/Courses/Mission_College/Math_4B%3A_Differential_Equations_(Reed)/04%3A_Linear_Second_Order_Equations/4.05%3A_Nonhomgeneous_Linear_Equations
    This section presents the theory of nonhomogeneous linear equations.
  • https://math.libretexts.org/Courses/Community_College_of_Denver/MAT_2562_Differential_Equations_with_Linear_Algebra/05%3A_Linear_Second_Order_Equations/5.03%3A_Nonhomogeneous_Linear_Equations
    This section presents the theory of nonhomogeneous linear equations.
  • https://math.libretexts.org/Bookshelves/Calculus/Calculus_(OpenStax)/17%3A_Second-Order_Differential_Equations/17.01%3A_Second-Order_Linear_Equations
    We often want to find a function (or functions) that satisfies the differential equation. The technique we use to find these solutions varies, depending on the form of the differential equation with w...We often want to find a function (or functions) that satisfies the differential equation. The technique we use to find these solutions varies, depending on the form of the differential equation with which we are working. Second-order differential equations have several important characteristics that can help us determine which solution method to use. In this section, we examine some of these characteristics and the associated terminology.
  • https://math.libretexts.org/Courses/Monroe_Community_College/MTH_225_Differential_Equations/05%3A_Linear_Second_Order_Equations/5.03%3A_Nonhomgeneous_Linear_Equations
    This section presents the theory of nonhomogeneous linear equations.
  • https://math.libretexts.org/Courses/Reedley_College/Differential_Equations_and_Linear_Algebra_(Zook)/10%3A_Linear_Second_Order_Equations/10.03%3A_Nonhomogeneous_Linear_Equations
    This section presents the theory of nonhomogeneous linear equations.

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