![]() Symbolic variables, for example with var("_C").ĭesolve() - Compute the “general solution” to a 1st or 2nd orderĭesolve_laplace() - Solve an ODE using Laplace transforms viaĭesolve_rk4() - Solve numerically an IVP for one first orderĭesolve_system_rk4() - Solve numerically an IVP for a system of firstĭesolve_odeint() - Solve numerically a system of first-order ordinaryĭifferential equations using odeint from scipy.integrate module.ĭesolve_system() - Solve a system of 1st order ODEs of any size usingĮulers_method() - Approximate solution to a 1st order DE,Įulers_method_2x2() - Approximate solution to a 1st order systemĮulers_method_2x2_plot() - Plot the sequence of points obtained Substitute values for them, and make them into accessible usable Them from symbolic variables that the user might have used. _C, _K1, and _K2 where the underscore is used to distinguish Solutions from the Maxima package can contain the three constants For another numerical solver see the ode_solver() function Which occur commonly in a 1st semester differential equationsĬourse. ![]() This file contains functions useful for solving differential equations ![]() Solving ordinary differential equations ¶ ![]()
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