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Chapter 1: Q4E (page 1)

In problems 1-4 Use Euler’s method to approximate the solution to the given initial value problem at the points x=0.1,0.2,0.3,0.4, and 0.5, using steps of size 0.1h=0.1.

dydx=xy  ,  y(0)=-1

Short Answer

Expert verified
xn
0.10.20.30.40.5
yn
-1-1.01-1.029-1.085-1.096

Step by step solution

01

Write the recursive formula

For the solution use the Euler’s formulayn+1=yn+h.fxn,yn

02

Apply recursive formula

One has ,fx,y=-xy,  x0=0,  y0=-1,  h=0.1

Then ,yn+1=yn+h.fxn,yn=yn+0.1xnyn

03

Put  n=0  to find  y1

Now, find the value of y1when n = 0, then

y1=y0+0.1x0y0=-1+0.10=-1

Hence, the value of y1=-1 when x1=0.1

04

Put  n=1 to find  y2

The value of y2is

y2=y1+0.1x1y1=-1+0.10.1-1=-1.01

Thus, the value of y2=-1.01 when x2=0.2

05

Put   n=2 to find  y3

Now the value of y3is

y3=y2+0.1x2y2=-1.01+0.10.2-1.01=-1.01+-0.019=-1.029

So, the value is y3=-1.029 when x3=0.3

06

Put  n=3 to find  y4

The value of y4 is

y4=y3+0.1x3y3=-1.029+0.10.3-1.029=-1.029+-0.029=-1.058

Consequently, the value is y4=-1.058 when x4=0.4

07

Put n=4  to find  y5

The value of y5is

y5=y4+0.1x4y4=-1.058+0.10.4-1.058=-1.058+-0.0378=-1.096

Therefore, the value is y5=-1.096when x5=0.5

Therefore the solution is

xn
0.1
0.2
0.3
0.4
0.5
yn
-1
-1.01-1.029
-1.058
-1.096

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Most popular questions from this chapter

In Problems 14–24, you will need a computer and a programmed version of the vectorized classical fourth-order Runge–Kutta algorithm. (At the instructor’s discretion, other algorithms may be used.)†

Using the vectorized Runge–Kutta algorithm for systems withh=0.175, approximate the solution to the initial value problemx'=2x-y;x(0)=0,y'=3x+6y;y(0)=-2 att=1.

Compare this approximation to the actual solution.

In Problems 9-13, determine whether the given relation is an implicit solution to the given differential equation. Assume that the relationship implicitly defines y as a function of x and use implicit differentiation.

y-logey=x2+1,dydx=2xyy-1

In problems 1-6, identify the independent variable, dependent variable, and determine whether the equation is linear or nonlinear.

xd2ydx2+3x-dydx=e3x

In Problem 19, solve the given initial value problem

y'''−y''−4y'+4y=0y(0)=−4y'(0)=−1y''(0)=−19

Find a general solution for the given differential equation.

(a)y(4)+2y'''-4y''-2y'+3y=0

(b)y'''+3y''-5y'+y=0

(c)y(5)-y(4)+2y'''-2y''+y'-y=0

(d)y'''-2y''-y'+2y=ex+x
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