Mathematical Methods for Physics and Engineering : A Comprehensive Guide

(Darren Dugan) #1

INTEGRAL EQUATIONS


23.5 Solve forφ(x) the integral equation


φ(x)=f(x)+λ

∫ 1


0

[(


x
y

)n
+

(y

x

)n]
φ(y)dy,

wheref(x) is bounded for 0<x<1and−^12 <n<^12 , expressing your answer
in terms of the quantitiesFm=

∫ 1


0 f(y)y

mdy.

(a) Give the explicit solution whenλ=1.
(b) For what values ofλare there no solutions unlessF±nare in a particular
ratio? What is this ratio?

23.6 Consider the inhomogeneous integral equation


f(x)=g(x)+λ

∫b

a

K(x, y)f(y)dy,

for which the kernelK(x, y) is real, symmetric and continuous ina≤x≤b,
a≤y≤b.
(a) Ifλis one of the eigenvaluesλiof the homogeneous equation

fi(x)=λi

∫b

a

K(x, y)fi(y)dy,

prove that the inhomogeneous equation can only a have non-trivial solution
ifg(x) is orthogonal to the corresponding eigenfunctionfi(x).
(b) Show that the only values ofλfor which

f(x)=λ

∫ 1


0

xy(x+y)f(y)dy

has a non-trivial solution are the roots of the equation
λ^2 + 120λ−240 = 0.
(c) Solve

f(x)=μx^2 +

∫ 1


0

2 xy(x+y)f(y)dy.

23.7 The kernel of the integral equation


ψ(x)=λ

∫b

a

K(x, y)ψ(y)dy

has the form

K(x, y)=

∑∞


n=0

hn(x)gn(y),

where thehn(x) form a complete orthonormal set of functions over the interval
[a, b].
(a) Show that the eigenvaluesλiare given by
|M−λ−^1 I|=0,
whereMis the matrix with elements

Mkj=

∫b

a

gk(u)hj(u)du.

If the corresponding solutions areψ(i)(x)=

∑∞


n=0a

(i)
nhn(x), find an expression
fora(ni).
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