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--- title: "Ordinary Differential Equation" source: https://www.jemoka.com/posts/kbhordinary_differential_equations/ --- ODEs are Differential Equations in one independent variable: \(y(x)\). Main Content: First-Order Differential Equations Second-Order Linear Differential Equations Uniqueness and Existance Overarching Categories order of equations the order of an equation is the highest derivative of an equation linear vs. non-linear differential equations A solution of a differential equation is linear when solutions are closed under linear operations. We can spot an ODE by seeing that each of its derivatives are seperated or in separable terms, and only to the first power—because that ends up being a linear equation (i.e. any two solutions satisfying the equation can add and scale to another solution). The RHS doesn’t matter. For instance: \begin{equation} xy’’ + e^{x}y’ + (x^{2}-3)y = x^{2}-x \end{equation} is linear. superposition principle any linear combination of a homogeneous linear ODE is also a solution to the ODE. functional linear independence Recall linear independence. If we have two solutions \(y_1\), \(y_2\), are linearly independent or “independent”, if \begin{equation} c_1 y_1(t) + c_2y_2(t) = 0 \end{equation} implies \(c_1 = c_2 = 0\). homogeneous vs. inhomogeneous equations whether or not, isolating all the DEPENDENT variables to the left side, is the right side zero? linear systems systems of ODEs are groups of ODEs. Linear systems can obtain you a vector-value function: \begin{equation} y’(x) = \mqty(3 & -2 \\ -1 & 5) \vec{y} \end{equation}