Mathematical Methods for Physics and Engineering : A Comprehensive Guide

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15.3 GENERAL ORDINARY DIFFERENTIAL EQUATIONS


15.3.4 Isobaric or homogeneous equations

It is straightforward to generalise the discussion of first-order isobaric equations


given in subsection 14.2.6 to equations of general ordern.Annth-order isobaric


equation is one in which every term can be made dimensionally consistent upon


givingyanddyeach a weightm,andxanddxeach a weight 1. Then thenth


derivative ofywith respect tox, for example, would have dimensionsminy


and−ninx. In the special casem= 1, for which the equation is dimensionally


consistent, the equation is called homogeneous (not to be confused with linear


equations with a zero RHS). If an equation is isobaric or homogeneous then the


change in dependent variabley=vxm(y=vxin the homogeneous case) followed


by the change in independent variablex=etleadstoanequationinwhichthe


new independent variabletis absent except in the formd/dt.


Solve
x^3

d^2 y
dx^2

−(x^2 +xy)

dy
dx

+(y^2 +xy)=0. (15.84)

Assigningyanddythe weightm,andxanddxthe weight 1, the weights of the five terms
on the LHS of (15.84) are, from left to right:m+1,m+1, 2m,2m,m+1. For these
weights all to be equal we requirem= 1; thus (15.84) is a homogeneous equation. Since it
is homogeneous we now make the substitutiony=vx, which, after dividing the resulting
equation through byx^3 ,gives


x

d^2 v
dx^2

+(1−v)

dv
dx

=0. (15.85)


Now substitutingx=etinto (15.85) we obtain (after some working)


d^2 v
dt^2

−v

dv
dt

=0, (15.86)


which can be integrated directly to give


dv
dt

=^12 v^2 +c 1. (15.87)

Equation (15.87) is separable, and integrates to give


1
2 t+d^2 =


dv
v^2 +d^21

=

1


d 1

tan−^1

(


v
d 1

)


.


Rearranging and usingx=etandy=vxwe finally obtain the solution to (15.84) as


y=d 1 xtan

( 1


2 d^1 lnx+d^1 d^2

)


.


Solution method.Assume thatyanddyhave weightm, andxanddxweight 1 ,


and write down the combined weights of each term in the ODE. If these weights can


be made equal by assuming a particular value formthen the equation is isobaric


(or homogeneous ifm=1). Making the substitutiony=vxmfollowed byx=et


leads to an equation in which the new independent variabletis absent except in the


formd/dt.

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