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2. Step potential - Wikipedia

   en.wikipedia.org/wiki/Step_potential

   In quantum mechanics and scattering theory, the one-dimensional step potential is an idealized system used to model incident, reflected and transmitted matter waves. The problem consists of solving the time-independent Schrödinger equation for a particle with a step-like potential in one dimension. Typically, the potential is modeled as a ...

3. Equation - Wikipedia

   en.wikipedia.org/wiki/Equation

   An identity is an equation that is true for all possible values of the variable(s) it contains. Many identities are known in algebra and calculus. In the process of solving an equation, an identity is often used to simplify an equation, making it more easily solvable. In algebra, an example of an identity is the difference of two squares:

4. Riccati equation - Wikipedia

   en.wikipedia.org/wiki/Riccati_equation

   In mathematics, a Riccati equation in the narrowest sense is any first-order ordinary differential equation that is quadratic in the unknown function. In other words, it is an equation of the form. where and . If the equation reduces to a Bernoulli equation, while if the equation becomes a first order linear ordinary differential equation .

5. Finite difference method - Wikipedia

   en.wikipedia.org/wiki/Finite_difference_method

   t. e. In numerical analysis, finite-difference methods ( FDM) are a class of numerical techniques for solving differential equations by approximating derivatives with finite differences. Both the spatial domain and time domain (if applicable) are discretized, or broken into a finite number of intervals, and the values of the solution at the end ...

6. Split-step method - Wikipedia

   en.wikipedia.org/wiki/Split-step_method

   Split-step method. In numerical analysis, the split-step ( Fourier) method is a pseudo-spectral numerical method used to solve nonlinear partial differential equations like the nonlinear Schrödinger equation. The name arises for two reasons. First, the method relies on computing the solution in small steps, and treating the linear and the ...

7. PISO algorithm - Wikipedia

   en.wikipedia.org/wiki/PISO_algorithm

   PISO algorithm ( Pressure-Implicit with Splitting of Operators) was proposed by Issa in 1986 without iterations and with large time steps and a lesser computing effort. It is an extension of the SIMPLE algorithm used in computational fluid dynamics to solve the Navier-Stokes equations. PISO is a pressure-velocity calculation procedure for the ...

8. Numerical methods for ordinary differential equations - Wikipedia

   en.wikipedia.org/wiki/Numerical_methods_for...

   It costs more time to solve this equation than explicit methods; this cost must be taken into consideration when one selects the method to use. The advantage of implicit methods such as is that they are usually more stable for solving a stiff equation, meaning that a larger step size h can be used. First-order exponential integrator method

9. Trapezoidal rule (differential equations) - Wikipedia

   en.wikipedia.org/wiki/Trapezoidal_rule...

   Trapezoidal rule (differential equations) In numerical analysis and scientific computing, the trapezoidal rule is a numerical method to solve ordinary differential equations derived from the trapezoidal rule for computing integrals. The trapezoidal rule is an implicit second-order method, which can be considered as both a Runge–Kutta method ...