Suppose that we use Euler's method to approximate the solution to the differential equation dy x¹ dx n SOH 23 Let f(x, y) = x¹/y. We let x = 0.1 and yo = 7 and pick a step size h = 0.2. Euler's method is the the following algorithm. From In and yn, our approximations to the solution of the differential equation at the nth stage, we find the next stage by computing Xn+1 = xn+h, Yn+1 = Yn+h· f(xn, Yn). Complete the following table. Your answers should be accurate to at least seven decimal places. Xn Yn 7 0.1 0 1 4 Y 5 ; = y(0.1) = 7. The exact solution can also be found using separation of variables. It is y(x) Thus the actual value of the function at the point x = 1.1 y(1.1) =

Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
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Suppose that we use Euler's method to approximate the solution to the differential equation
dy X
dx Y
Let f(x, y) = x¹/y.
7 and pick a step size h
0.2. Euler's method is the the following algorithm. From In and
We let co
0.1 and yo
yn, our approximations to the solution of the differential equation at the nth stage, we find the next stage by
computing
In
0
1
=
5
=
Xn+1 =
=
y(0.1) = 7.
= xn+h, Yn+1 = Yn + h • f(xn, Yn).
Complete the following table. Your answers should be accurate to at least seven decimal places.
Xn
Yn
7
0.1
The exact solution can also be found using separation of variables. It is
y(x) =
Thus the actual value of the function at the point x = 1.1
y(1.1) =
Transcribed Image Text:Suppose that we use Euler's method to approximate the solution to the differential equation dy X dx Y Let f(x, y) = x¹/y. 7 and pick a step size h 0.2. Euler's method is the the following algorithm. From In and We let co 0.1 and yo yn, our approximations to the solution of the differential equation at the nth stage, we find the next stage by computing In 0 1 = 5 = Xn+1 = = y(0.1) = 7. = xn+h, Yn+1 = Yn + h • f(xn, Yn). Complete the following table. Your answers should be accurate to at least seven decimal places. Xn Yn 7 0.1 The exact solution can also be found using separation of variables. It is y(x) = Thus the actual value of the function at the point x = 1.1 y(1.1) =
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