The Wilson quotient W (p ) is defined as:
W
(
p
)
=
(
p
−
1
)
!
+
1
p
{\displaystyle W(p)={\frac {(p-1)!+1}{p}}}
If p is a prime number , the quotient is an integer by Wilson's theorem ; moreover, if p is composite , the quotient is not an integer. If p divides W (p ), it is called a Wilson prime . The integer values of W (p ) are (sequence A007619 in the OEIS ):
W (2) = 1W (3) = 1W (5) = 5W (7) = 103W (11) = 329891W (13) = 36846277W (17) = 1230752346353W (19) = 336967037143579... It is known that
W
(
p
)
≡
B
2
(
p
−
1
)
−
B
p
−
1
(
mod
p
)
,
{\displaystyle W(p)\equiv B_{2(p-1)}-B_{p-1}{\pmod {p}},}
p
−
1
+
p
t
W
(
p
)
≡
p
B
t
(
p
−
1
)
(
mod
p
2
)
,
{\displaystyle p-1+ptW(p)\equiv pB_{t(p-1)}{\pmod {p^{2}}},}
where
B
k
{\displaystyle B_{k}}
k -th Bernoulli number . Note that the first relation comes from the second one by subtraction, after substituting
t
=
1
{\displaystyle t=1}
t
=
2
{\displaystyle t=2}
See also
References
Lehmer, Emma (1938). "On congruences involving Bernoulli numbers and the quotients of Fermat and Wilson". Annals of Mathematics . 39 (2): 350–360. doi :10.2307/1968791 . JSTOR 1968791 .
External links
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is the k-th 
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