100 Ordinary Differential EquationsTable 2 .7 Adams-Bashforth approximations to the solution of the IVP
(7) y' = y + x; y(O) = 1 on [O, 1] with stepsize h = .1Runge-Kutta Adams-Bashforth formulas
starting m= 1 m=2 m=3 Exact
Xn values Yn Yn Yn solution.0 1.0 1.0
.1 1.11034 1.11034
.2 1.24280 1.24189 1.24281
.3 1.39971 1.39766 1.39963 1.39972
.4 1.58021 1.58345 1.58364 1.58365
.5 1. 79236 1.79711 1.79742 1.79744
.6 2.03720 2.04374 2.04420 2.04424
.7 2.31816 2.32682 2.32745 2.32751
.8 2.63903 2.65018 2.65100 2.65108
.9 3.00397 3.01804 3.0 1911 3.01921
1.0 3.41762 3.43509 3.43644 3.436562 .4.2.2 Nystrom Meth o d s
A set of formulas called Nystrom formulas results by selecting r = n, p = 1,
and q = 1. After calculating the interpolating polynomial and integrating one
obtains the foll owing formulas.
rri Nystrom formulas(^0) Yn+l = Yn-1 + 2hj n
(^1) Yn+l = Yn-1 + 2hj n
2
h(7 Jn - 2j n-1 + J n-2)
Yn+l = Yn-1 + 3
3
h(8j n - 5j n-1 + 4j n-2 - f n-3)
Yn+l = Yn-1 + 3
These formulas were derived by the Finnish mathematician E. J. Nystrom and
published in 1925. The formula for m = 0- which is the same as the formula