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Chapter 8: Q5E (page 450)

In Problems 1-10, use a substitution y=xr to find the general solution to the given equation for x>0.

d2y/dx2=5/x dy/dx-13/x2 y

Short Answer

Expert verified

The general solution for the given equation is y=c1x3 cos (2 lnx)+c2x3 sin(2 lnx).

Step by step solution

01

Define Cauchy-Euler equations:

In mathematics, a Cauchy problem is one in which the solution to a partial differential equation must satisfy specific constraints specified on a hypersurface in the domain.

An initial value problem or a boundary value problem is both examples of Cauchy problems.

The equation will be in the form of ax2y"+bxy'+cy=0.

02

Find the general solution:

The given equation is

d2y/dx2=5/x dy/dx-13/x2 y

This can be re-written in the required form as

x2y"-5xy'+13y=0

Let L be the differential operator defined by the left-hand side of equation, that is

L[y](x) = x2y"-5xy'+13y

And let's set,

w(r,x)=xr

Substituting the w(r,x) in place of y(x), you get

L[y](x) = x2(xr )"-5x(xr)'+13(xr)

=x2 (r(r-1)) xr-2 -5x(r) xr-1 +13xr

=(r2-r) xr -5rxr+13xr

=(r2-6r+13) xr

Solving the indicial equation,

r2-6r+13=0

r=[2± √(36-4×13)]/2

=(6± 4i)/2

=3±2¾±

There are two complex conjugates,

r1=3+2i and r2=3-2i

Thus there are two linearly independent solutions given by,

x3+2i=x3 cos(2 lnx)+ix3 sin (2 lnx)

You can write two linearly independent real-valued solutions as,

y1=x3 cos(2 lnx) and y2=x3 sin(2 lnx)

Therefore, the general solution for the equation will be,

y=c1 x3 cos(2 lnx)+c2 x3 sin(2 lnx)

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Most popular questions from this chapter

Show that \(y = {x^{1/2}}w\left( {\frac{2}{3}\alpha {x^{3/2}}} \right)\)is a solution of the given form of Airy’s differential equation whenever w is a solution ofthe indicated Bessel’s equation. (Hint: After differentiating, substituting, and simplifying, then let \(t = \frac{2}{3}\alpha {x^{3/2}}\))

(a)\(y'' + {\alpha ^2}xy = 0,x > 0;{t^2}w'' + tw' + \left( {{t^2} - \frac{1}{9}w} \right) = 0,t > 0\)

(b)\(y'' - {\alpha ^2}xy = 0,x > 0;{t^2}w'' + tw' - \left( {{t^2} - \frac{1}{9}w} \right) = 0,t > 0\)

Question: In Problems 1–10, determine all the singular points of the given differential equation.

5. (t2 - t -2)x" + (t +1)x' - (t - 2)x = 0

In Problems 13-19,find at least the first four nonzero terms in a power series expansion of the solution to the given initial value problem.

y''-e2xy'+(cosx)y=0y(0)=-1,y'(0)=1

In Problems 21-28, use the procedure illustrated in Problem 20 to find at least the first four nonzero terms in a power series expansion about’s x=0 of a general solution to the given differential equation.

y"-(sin x)y=cos x

(a) Use (20) to show that the general solution of the differential equation \(xy'' + \lambda y = 0\) on the interval \((0,\infty )\) is\(y = {c_1}\sqrt x {J_1}\left( {2\sqrt {\lambda x} } \right) + {c_2}\sqrt x {Y_1}\left( {2\sqrt {\lambda x} } \right)\).

(b) Verify by direct substitution that \(y = \sqrt x {J_1}\left( {2\sqrt {\lambda x} } \right)\)is a particular solution of the DE in the case \(\lambda = 1\).
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