IGLib
1.7.2
The IGLib base library EXTENDED - with other lilbraries and applications.
|
Try-it-yourself script class. More...
Static Public Member Functions | |
static void | Run (string[] arguments) |
Plots the analytical resonance curve for the linear oscillator, then numerically calculates More... | |
Try-it-yourself script class.
|
inlinestatic |
Plots the analytical resonance curve for the linear oscillator, then numerically calculates
some points of the curve and plots them on top. The deviation can then be compared.
References IG.MPetekLib.Algorithms.PlottableModels.Oscillators.DrivenHarmonicOscillator.AngularFrequencySquare, IG.MPetekLib.Algorithms.PlottableModels.Oscillators.DrivenHarmonicOscillator.CalcAnalyticalAmplitudeVsDrivingFrequnecy(), IG.MPetekLib.Algorithms.PlottableModels.Oscillators.DrivenOscillatorBase.CalcSteadyStateAmplitudeVsDrivingFrequency(), IG.MPetekLib.Algorithms.PlottableModels.Oscillators.DrivenHarmonicOscillator.DampingCoefficient, IG.MPetekLib.Algorithms.PlottableModels.Oscillators.DrivenHarmonicOscillator.DomainDensityMultiplier, IG.MPetekLib.Algorithms.PlottableModels.Oscillators.DrivenOscillatorBase.EndingDrivingAngularFrequency, IG.MPetekLib.Algorithms.PlottableModels.PlottableModelBase.NewCurveFromPlottableData(), IG.MPetekLib.Algorithms.PlottableModels.Oscillators.DrivenOscillatorBase.NSamplesForResonanceCurve, IG.MPetekLib.Algorithms.Plotting.PlotHQ.Plotter, IG.MPetekLib.Algorithms.Plotting.PlotHQ.ShowPlot(), IG.MPetekLib.Algorithms.PlottableModels.PlottableODEModelBase.Solver, IG.MPetekLib.Algorithms.PlottableModels.Oscillators.DrivenOscillatorBase.StartingDrivingAngularFrequency, and IG.MPetekLib.Algorithms.Solvers.InitialProblemODE_RK4.InitialProblemSolverBase.StepSize.
Referenced by IG.Script.AppMarkoPetekDerivedScript.AppExecuteDemoResCurvePlot().