Sequences, Series, and Special Functions 549The numbers E 2 n [or the ( -1 r E 2 n] are called the Euler numbers. They
were introduced by L. Euler and later called Euler numbers by H. F. Scherk
in 1825. They are all odd integers and terminating with either 1 or 5. To
Scherk is also due the formula
E 2 = 1 [l ~ (2n + 1) 2 2k+i( 2 2k-1 l)B l
n 2n + 1 LJ 2k^2 k
. k=l
expressing the Euler numbers in terms of the Bernoulli numbers.
Returning to (8.5-12), we have
sec h z=^1 + ~ ~ (E2n 2n
2 n)!z ,
(8.5-13)and replacing z by iz, we obtain
sec z = 1 + ~(-l)n (~~)! z2n, (8.5-14)Extensive tables of the Bernoulli and Euler numbers have been published
(see, e.g., [14]). It is know that the numbers (-1r-^1 B2n and (-l)n E2n
are all positive (See Section 9.12, Examples 3 and 5; see also papers [4]
and [26]).
Exercises 8.1
- Expand each of the following functions in powers of z and find the
radius of convergence of the resulting series.
(a) sinhz (b) coshz
1 z
(c) 2+z (d) l+z
(e) sin^2 z (f) cosh^2 z
(g) Log(l - z) (h) Sinh-^1 z
(i) Tanh-^1 z (j) (1 + z)^312 - Expand each of the following in powers of z - 1 and find the radius of
convergence of the resulting series.
1 z
(a) - (b) -
z 1 +z
(c) ez (d) Logz
(e) Arctanz (f) sinz(g) 1 (h) z1/2 (l1/2 = l)
(l+z)^2.
- Expand f(z) = z^1 /^2 in powers of z-(-1 +i) and determine the region
of validity of the expansion.