How do I apply the Trapezoid Method with h = 1/4 to the initial value problem,...

Use the RK4 method with h=0.1 to obtain a 4-decimal approximation of the indicated value: y'...

Use the RK4 method with h=0.1 to obtain a 4-decimal approximation of the indicated value: y' = x2 + y2, y(0) = 1; y(1.3) If you could make a table with the values up to 1.3 that is what I am looking for. I already solved the first line (F1, F2, F3, and F4). I am just unsure where to find a code/program to create a table. All I had to do was write out the work by hand for...

Use Euler's method to calculate the first three approximations to the given initial value problem for...

Use Euler's method to calculate the first three approximations to the given initial value problem for the specified increment size. Round your results to four decimal places. y' = 3xy - 3y, y(2) = 4, dx = 0.2 Group of answer choices A)y1 = 6.4000, y2 = 11.0080, y3 = 20.2547 B)y1 = 8.0000, y2 = 12.3840, y3 = 52.8384 C)y1 = 4.8000, y2 = 6.8800, y3 = 79.2576 D)y1 = 1.6000, y2 = 11.0080, y3 = 42.2707

Let be the problem with initial value f(t,y) = yt3   , y(0)=1 Write the general formula...

Let be the problem with initial value f(t,y) = yt3   , y(0)=1 Write the general formula for Picard iterations. Then start with the function y0 (t) = y (0) = 1 and calculate the iterations y1 (t) and y2 (t).

Use Euler's method to approximate y(0.2), where y(x) is the solution of the initial-value problem y''...

Use Euler's method to approximate y(0.2), where y(x) is the solution of the initial-value problem y'' − 4y' + 4y = 0,  y(0) = −3,  y'(0) = 1. Use h = 0.1. Find the analytic solution of the problem, and compare the actual value of y(0.2) with y2. (Round your answers to four decimal places.) y(0.2) ≈     (Euler approximation) y(0.2) = -2.3869 (exact value) I'm looking for the Euler approximation number, thanks.

Approximate the value of e by looking at the initial value problem y' = y with...

Approximate the value of e by looking at the initial value problem y' = y with y(0) = 1 and approximating y(1) using Euler’s method with a step size of 0:2. Also, how do I know when you stop? Very confused on that.

carry out n=4 steps of Euler's method with h=0.5 for the following initial value problem: y'=y-x,...

carry out n=4 steps of Euler's method with h=0.5 for the following initial value problem: y'=y-x, y(0)=2

1)using the laplace transform, solve the initial value problem y1'+y2=0 y1+y2'=2cost y1(0)=1,y2(0)=0   2)using the convolution, find...

1)using the laplace transform, solve the initial value problem y1'+y2=0 y1+y2'=2cost y1(0)=1,y2(0)=0   2)using the convolution, find the inverse transform of (a) F(s)=1/s(s-1) and (b) G(s)=5/(s^2+1)(s^2+25)

4. For the initial-value problem y′(t) = 3 + t − y(t), y(0) = 1: (i)...

4. For the initial-value problem y′(t) = 3 + t − y(t), y(0) = 1: (i) Find approximate values of the solution at t = 0.1, 0.2, 0.3, and 0.4 using the Euler method with h = 0.1. (ii) Repeat part (i) with h = 0.05. Compare the results with those found in (i). (iii) Find the exact solution y = y(t) and evaluate y(t) at t = 0.1, 0.2, 0.3, and 0.4. Compare these values with the results of...

Problem 6. Use Euler’s Method to approximate the particular solution of this initial value problem (IVP):...

Problem 6. Use Euler’s Method to approximate the particular solution of this initial value problem (IVP): dydx=√y+x satisfying the initial condition y(0)=1 on the interval [0,0.4] with h = 0.1. Round ?? to 4 decimal places.

Use Euler's method to approximate y(1.2), where y(x) is the solution of the initial-value problem x2y''...

Use Euler's method to approximate y(1.2), where y(x) is the solution of the initial-value problem x2y'' − 2xy' + 2y = 0,  y(1) = 9,  y'(1) = 9, where x > 0. Use h = 0.1. Find the analytic solution of the problem, and compare the actual value of y(1.2) with y2. (Round your answers to four decimal places.) y(1.2) ≈     (Euler approximation) y(1.2) =     (exact value)