136 Basic Concepts of the Theory of Difference Schemes- Negative norms. In a priori estimates ( 41) and ( 42) we were dealing with
the negative norm 11 'PI IA -1. Just for this reason the question of computing
negative norms for the sin1plest operators will be of great importance. First
of all we quote a result of simple observations:
( 46) if0 0
where A = A* > 0 and A = A* > 0. This follows from the equivalence of
the operator inequalities( 47) andOur first goal is to prove the equivalence between the inequalities Q > 0
and L*Q L > 0, where Q, L: Hf--+ Hand L-^1 exists. Indeed,(L*QLy, y) = (QLy, Ly)= (Qv, v),
0 0
where v = Ly and y = L-^1 v. Accepting A> /A or Q =A - I A> 0 and
0
setting L = L* = A-^1!^2 , we obtain C-1 E > 0, whereSince the operator c-^1 /^2 = ( c-^1 /^2 )* > O does exist, the inequality C -
/ E > 0 is equivalent to
0 0
c-1/2(C-1E)c-1/2 = E-,c-1 = E-1Alf2A-l Al/2 > 0.0 0
By merely setting L = L* = A-^1 /^2 we get A-^1 -1A-^1 > 0, what means
that inequalities ( 47) are equivalent as required.Example 4 Consider the first boundary-value problem
Ay=(ayx)x=-<p(xi), xi=ih, i=l,2, ... ,N-1,
( 48)
h N = 1, Yo = YN = 0, ai > c 1 > 0, i = 1, 2, ... , N,on the uniform grid wh = {xi= i h, i = 0, 1, 2, ... 'N' h = 1 IN}. One
0
assumes, as usual, that Hh = Dh is the space of all grid functions defined