Difference approxirnation of elementary differential operators 63where8(1+0.5s)
3
for - 2 < - s -< -1 ,
8 (1 +0.5s)3
-4(1 +s)^3 for -l<s<O
g(s) =
- ,
8 ( 1 - 0 5 s)
3
- ,
- 4 ( 1 - s )^3 for O<s<l,
8(1-0.5s)
3
for l<s<2.
The reader is invited to do it on his/her own.Example 4 L v = ~~ - ~:~, v = v(x, t). Let (x, t) be a fixed point in
the plane ( x, t) and let h > 0 and T > 0 be two arbitrary numbers taken
as steps in the sequel. A difference approximation LhT of the operator L is
connected with a proper choice of the pattern.
vVe begin by placing approximations of the simplest type for which
the pattern consists of the four points (Fig. 4.a), so that LhT is certainly
expressed by( 19)(O) _ v(x,t+r)-v(x,t)
L In V - --------
T
v( x + h, t) - 2 v( x, t) + v( x - h, t)
h2A suitably chosen symbolism may symplify the form of writing various
difference expressions and makes our exposition more transparent. This is
acceptable if we agree to considerv=v(x,t), v=v(x,t+r), v=v(x,t-r).
Within these notations, the difference derivative with respect tot becomes
v(x, t + r) - v(x, t) v-v
(20)
T TBy virtue of relations (7) and (20) we write down (19) in the form( 19')In the preceding constructions of L),^0 ) we have taken the value of V;;;;i; at the
moment t, that is, on the lower layer. On the pattern depicted in Fig. 4.b it