238 CHAPTER 7 NUMBER THEORY
and this makes sense; for we could argue that half of the positive integers up to 360
are odd, and two-thirds of these are not multiples of three, and four-fifths of what are
left are not multiples of five. The final fraction (!. �. �) of 360 will be the numbersthat share no divisors with 360. This argument is not quite rigorous. It tacitly assumes
that divisibility by different primes is in some sense "independent" in a probabilistic
sense. This is true, and it can be made rigorous, but this is not the place for it. 5
Let us pretend to change the subject for a moment by introducing the Mobius
function J1 (n). We defineJ1(n) = { �
(-It
if n = 1;
if p^21 n for some prime p;
if n = PIP 2 ··· Pr, each P a distinct prime.
This is a rather bizarre definition, but it turns out that the Mobius function very conveniently "encodes" PIE. Here is a table of the first few values of J1(n).
7.3. 11 Verify that J1 is multiplicative.
7.3. 12 Use 7.3.11 and 7.3.9 to show that
tJ1(d) = { 6
if n = 1;
if n > (^1).
The values of J1(n) alternate sign depending on the parity of the number of prime
factors of n. This is what makes the Mobius function related to PIE. For example, we
could rewrite equation (2) as(3)
This works because of J1 's "filtering" properties. If a divisor d in the sum above con
tains powers of primes larger than 1, J1 (d) = 0, so the term is not present. If d is equalto a single prime, say P, the term will be _!!... Likewise, if d = pq, the term becomes
p+�, etc. And of course (3) is a general formula, true for any n.
pqProblems and Exercises
7.3.13 Make a table, either by hand or with the aid of
a computer, of the values of den), iP(n), cr(n),J.l(n) for,
say, 1 :S n :S 100 or so.
7.3. 14 Prove that iP(n) = 14 has no solutions.
7.3.15 In 7.3.4, you showed that d(ab) < d(a)d(b)whenever a and b are relatively prime. What can you
say about the cr function in this case?
7.3. 16 Find the smallest integer n for which iP(n) = 6.
7.3. 17 Find the smallest integer n for which den) =
10.(^5) See [24] for a wonderful discussion of this and related issues.