1550078481-Ordinary_Differential_Equations__Roberts_

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Introduction 27

EXAMPLE 9 A Boundary Value Problem with an Infinite
Number of Solutions

As in the previous two examples, if the boundary value problem
(18) y" + y = O; y(O) = 0, y(7r) = 0

is to have a solution, it must be of the form y = A sin x. Imposing the second

bounda ry condition, y( 7f) = 0, results in the equation A sin 7f = A · 0 = 0,

which is satisfied by all choices of the constant A. So the boundary value
problem (18) has an infinite number of solutions- the one-parameter family

of functions y = Asinx, where A is an arbitrary constant.

In the previous three examples, the differential equation and one boundary
condition were identical. However, the results which we obtained were rad-
ically different because of the second boundary condition. These examples
illustrate the complexities inherent in the study of boundary value problems.
These complexities can, at least partially, be attributed to the interaction
of the boundary conditions with the differential equation. Because of these
inherent complexities, we shall not present any general theory for boundary
value problems.


EXERCISES 1.3


1. Verify that y(x) = c 1 ex

2
is a one-parameter family of solutions of the

differential equation y' - 2xy = 0 on the interval (-oo, oo ).


  1. Show that y = c 1 e-x + x^2 - 1 is a one-parameter family of solutions of
    the differential equation y' + y = x^2 + 2x - 1 on (-oo, oo ).

  2. Show that y = c 1 e-^2 x + c 2 e^3 x is a two-parameter family of solutions of


the differential equation y" - y' - 6y = 0 on ( -oo, oo).

1

4. Show that y = (

4


x^2 + c^2 )^2 is a one-parameter family of so lutions of the


differential equation y' = xy^112 on (-oo, oo) and verify that y(x) = 0 is

a singular solution.


  1. Consider the differential equation (19) y" - y = 0.
    a. Show that y = c 1 e-x + c 2 ex is a two-parameter family of solutions
    of the DE (19).
    b. Show that y = k 1 sinh x + k 2 cosh x is also a two-parameter family
    of solutions of the DE (19).

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