101]
1
155, 156, 158
101.
NOTES ON LAGRANGE’S THEOREM.
[From the Cambridge and Dublin Mathematical Journal, vol. vi. (1851), pp. 37—45.]
I.
If in the ordinary form of Lagrange’s theorem we write (x + a) for x, it becomes
x = hf {a + x),
F (a + x) — Fa + ^ F'afa + &c (1)
It follows that the equation
F (a + x) = Fa + j ( Fa f a ) + > ( 2 )
must reduce itself to an identity when the two sides are expanded in powers of x;
or writing for shortness F, f instead of Fa, fa, and 8 for ^, we must have
1
M
r 8 r F=S
$p-i fF. fp)
L r-pf-
—p f-p\
8 r ~pf
(where p extends from 0 to r). Or what comes to the same,
(3)
,8 r F=S
p[p — «R -8 [r — p] r ~P [s — l] s
$P-sfp _ $r-pj--p _ gsp
.(4)
where s extends from 0 to (r — p). The terms on the two sides which involve 8 r F
are immediately seen to be equal ; the coefficients of the remaining terms 8 S F on the
second side must vanish, or we must have
S
(5)
