Uses of Class
dev.nm.analysis.differentialequation.ode.ivp.problem.ODE1stOrder
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Uses of ODE1stOrder in dev.nm.analysis.differentialequation.ode.ivp.problem
Subclasses of ODE1stOrder in dev.nm.analysis.differentialequation.ode.ivp.problem Modifier and Type Class Description class
ODE1stOrderWith2ndDerivative
Some ODE solvers require the second derivative for more accurate Taylor series approximation. -
Uses of ODE1stOrder in dev.nm.analysis.differentialequation.ode.ivp.solver
Methods in dev.nm.analysis.differentialequation.ode.ivp.solver with parameters of type ODE1stOrder Modifier and Type Method Description Vector[]
ODEIntegrator. integrate(ODE1stOrder ode, double[] x)
This is the integration method that approximates the solution of a first order ODE.ODESolution
ODESolver. solve(ODE1stOrder ode)
Solves the given ODE problem. -
Uses of ODE1stOrder in dev.nm.analysis.differentialequation.ode.ivp.solver.extrapolation
Methods in dev.nm.analysis.differentialequation.ode.ivp.solver.extrapolation with parameters of type ODE1stOrder Modifier and Type Method Description ODESolution
BurlischStoerExtrapolation. solve(ODE1stOrder ode)
Perform the extrapolation.ODESolution
SemiImplicitExtrapolation. solve(ODE1stOrder ode)
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Uses of ODE1stOrder in dev.nm.analysis.differentialequation.ode.ivp.solver.multistep.adamsbashforthmoulton
Methods in dev.nm.analysis.differentialequation.ode.ivp.solver.multistep.adamsbashforthmoulton with parameters of type ODE1stOrder Modifier and Type Method Description ODESolution
AdamsBashforthMoulton. solve(ODE1stOrder ode)
Solve an ODE using the Adams-Bashforth-Moulton method. -
Uses of ODE1stOrder in dev.nm.analysis.differentialequation.ode.ivp.solver.rungekutta
Methods in dev.nm.analysis.differentialequation.ode.ivp.solver.rungekutta with parameters of type ODE1stOrder Modifier and Type Method Description Vector[]
RungeKuttaIntegrator. integrate(ODE1stOrder ode, double[] x)
ODESolution
RungeKutta. solve(ODE1stOrder ode)
Solves a first order ODE.ODESolution
RungeKuttaFehlberg. solve(ODE1stOrder ode)
Solve the given ODE using Runge-Kutta-Fehlberg method.
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