208 Homogeneous Difference Schemeswhere A; and B; are some numbers which will be specified in the sequel,
v;(x) and v;(x) are linearly independent solutions to the hornogeneous
equation L(p,q lu = 0 (pattern functions) and v~ ( x) is a particular solution to
the nonhomogeneous equation ( 1) subject to the homogeneous conditions:
(4) L(p,q)v! = f(x), X;_ 1 < x < X;+ 1 , v~(x;+ 1 ) = v!(x;_ 1 ) = 0.
The accepted view is that the pattern functions v; ( x) and v~ ( x)
will be declared to be solutions of the appropriate Cauchy problems
(5)(6)(1
) (v;)'(x;+ 1 ) = -1.
p Xi+1
By merely setting in (3) x = x;_ 1 and x = x;+ 1 we find that(7)Pattern functions so defined possess a nurnber of nice properties (com-
pare with Section 6), so there is some reason to be concerned about this:(8)(9)(10)
1) v;(x) is positive and rnonotonically increasing for X;_ 1 < x < X;+ 1 ;
v~ ( x) is positive and monotonically decreasing for X;_ 1 < x < X;+ 1 ;
2) the equality is certainly true:
v; (x;+ 1 ) = v;(x;_ 1 );
3) the relation occurs:
xi
v~(x;+i) = v~(x;) + v~(x;) + v;(x;) j v~ q(x) dx
Xi-.1Ti+l
+v~(x;) j v;q(x) dx;
{(,' i
4) the recurrence relation is valid: