Abstract: The paper concerns the parallel computing and its application for solving the full Lyapunov exponents in the general nonlinear parameter-dependent continuous ordinary differential equations.

Data from an experiment may result in a graph indicating exponential growth. This implies the formula of this growth is \(y = k{x^n}\), where \(k\) and \(n\) are constants. Using logarithms, we can ...

This is a preview. Log in through your library . Abstract We generalize the Newton polygon procedure for algebraic equations to generate solutions of polynomial differential equations of the form ∑∞ ...