338 Difference Schemes with Constant CoefficientsWith this relation in view, it is not difficult to derive the asymptotic
expans10nwith the membersT^2 {j3 T3^04
/3 = - 24.6 271.7 + ... ,which serve to motivate the double inequality pJ < e-^0 t1+!lt1 < e-^0 t1
and the a priori estimate II yj 11 < e-^0 t^1 11 y^0 II for scheme (8) under the
constraint TD < 1.- Asymptotic stability of the three-layer scheme. The object of investi-
gation here is the three-layer scheme
(13) 2 3 Yt - 2 I Yr + A Y A = ,^0 A-- A* , A> oE, i5 > 0,
which is unconditionally asymptotically stable for T < 1/(25). To make
sure of it, an alternative form Yj + TYft + Af; = 0, which provides an
approximation of order 2 for the heat conduction equation with constant
coefficients ( 1), will appear in the further development:1/J = Uo t + T U[t + A U. = Uo t + T U[t - A ·u - TA Uo t - ~ - T^2 A '1lft
= U. + TU .. - L U - T L U ' - 2 I T-? L U .. + O(h? -+ T-?)
= (il-Lu)+r(u-Lii)+O(h^2 +r^2 ) = O(h^2 +r^2 ).
Here we used also the initial equation ·u = Lu and its corollary u = Lu.
In conformity with the method of separation of variables,where Xk refers to an eigenfunction of the operator A. Recall that, by
definition,
k = 1, 2, ... , 1V,
With this in mind, we initiate the derivation of the difference equation