58 Basic Concepts of the Theory of Difference Schemesfixed. Substituting the preceding series into (1), (2), and (4) yieldsv= v(x + h) - v(x) =vx+-vx+^1 ( ) h^11 ( ) O(h^2 )
x h 2 ,(5) V:r; = v(x) - ~(x - h) = v1(x) - ~ v11(x) + O(h2),
Vo = v(x + h) - v(x - h) = V^1 ( X ) + O(h^2 )
x 2h ,thereby justifying that·1/J = vx - v^1 (:r) = O(h),
1jJ = vx - v^1 (x) = O(h),
1/J=v~ -v^1 (x)=O(h^2 ).Let V be a class of sufficiently smooth functions v E V defined in a
neighborhood Patt(x, ho) of a point x containing for h < h 0 the pattern
Patt(x, h) of a difference operator Lh. We say that Lh approximates the
differential operator L with order m > 0 at a point x if1/J(x) = Lh v(x) - Lv(x) = O(hm).
Thus, the right and left difference derivatives generate approximations of
order 1 to Lv = v^1 , while the central difference derivative approximates to
the second order the same.
d^2 v
Example 2 Lv = v^11 = dx 2. In order to construct a difference approxi-n1ation of the second derivative, it is necessary to rely on the three-point
pattern ( x - h, ;c, x + h). In that case we have
(6)
v( x + h) - 2 v( x) + v( x - h)
Lh v = h 2Observe that the right difference derivative at a point x is identical
with the left difference derivative at the point x + h, that is, the relation
vx(x) = va;(x + h) occurs, permitting us to rewrite (6) as