Runge-Kutta (RK) Method

7. What is the idea of the Runge-Kutta method?

7. What is the idea of the Runge-Kutta method?

Use python (spi.RK45 )to code the Runge Kutta method to approximate/plot the solution the following initial-value...

Use python (spi.RK45 )to code the Runge Kutta method to approximate/plot the solution the following initial-value ?′=1+(?−?)2, 2<?<3, ?(2)=1y′=1+(t−y)2, 2

Use C++ in Solving Ordinary Differential Equations using a Fourth-Order Runge-Kutta of Your Own Creation Assignment:...

Use C++ in Solving Ordinary Differential Equations using a Fourth-Order Runge-Kutta of Your Own Creation Assignment: Design and construct a computer program in C++ that will illustrate the use of a fourth-order explicit Runge-Kutta method of your own design. In other words, you will first have to solve the Runge-Kutta equations of condition for the coefficients of a fourth-order Runge-Kutta method.   See the Mathematica notebook on solving the equations for 4th order RK method.   That notebook can be found at...

Given (dy/dx)=(3x^3+6xy^2-x)/(2y) with y=0.707 at x= 0, h=0.1 obtain a solution by the fourth order Runge-Kutta...

Given (dy/dx)=(3x^3+6xy^2-x)/(2y) with y=0.707 at x= 0, h=0.1 obtain a solution by the fourth order Runge-Kutta method for a range x=0 to 0.5

please answer the question: Describe the basic idea behind Euler’s Method. Compare this with the Improved...

please answer the question: Describe the basic idea behind Euler’s Method. Compare this with the Improved Euler’s Method - in what way is it an improvement? Finally, compare both these methods with the Runge-Kutta method - what is the difference, and why does Runge-Kutta give more accurate results?

10.16: Write a user-defined MATLAB function that solves a first-order ODE by applying the midpoint method...

10.16: Write a user-defined MATLAB function that solves a first-order ODE by applying the midpoint method (use the form of second-order Runge-Kutta method, Eqs(10.65),(10.66)). For function name and arguments use [x,y]=odeMIDPOINT(ODE,a,b,h,yINI). The input argument ODE is a name for the function that calculates dy/dx. It is a dummy name for the function that is imported into odeMIDPOINT. The arguments a and b define the domain of the solution, h is step size; yINI is initial value. The output arguments, x...

The differential equation given as dy / dx = y(x^3) - 1.4y, y (0) = 1...

The differential equation given as dy / dx = y(x^3) - 1.4y, y (0) = 1 is calculated by taking the current h = 0.2 at the point x = 0.6 and calculated by the Runge-Kutta method from the 4th degree, find the relative error. analytical solution: y(x)=e^(0.25(x^4)-1.4x)

Suppose A ∈ Rk×k is symmetric. Find the eigenvalues and corresponding eigenvectors for A + cIk...

Suppose A ∈ Rk×k is symmetric. Find the eigenvalues and corresponding eigenvectors for A + cIk where Ik ∈ Rk×k is the identity matrix and c ∈ R is a constant

In Matlab, Construct the natural cubic spline (see the LiveScript) to interpolate the Runge function (see...

In Matlab, Construct the natural cubic spline (see the LiveScript) to interpolate the Runge function (see Homework 6) using 10, 15, 20, and 25 equispaced nodes.

7. Make a literature search and state clearly and briefly what you understand from Kutta condition...

7. Make a literature search and state clearly and briefly what you understand from Kutta condition and its use in aerodynamics.