So, now that @Spunden has so artfully let the cat out of the bag, here's one way to implement it.

**Code**

```
def zeros(n)
return 0 if n.zero?
k = (Math.log(n)/Math.log(5)).to_i
m = 5**k
n*(m-1)/(4*m)
end
```

**Examples**

```
zeros(3) #=> 0
zeros(5) #=> 1
zeros(12) #=> 2
zeros(15) #=> 3
zeros(20) #=> 4
zeros(25) #=> 6
zeros(70) #=> 16
zeros(75) #=> 18
zeros(120) #=> 28
zeros(125) #=> 31
```

**Explanation**

Suppose `n = 128`

.

Then each number between one and `128`

(inclusive) that is divisible by `5^1=>5`

provides at least on factor, and there are `128/5 => 25`

such numbers. Of these, the only ones that provide more than one factor are those divisible by `5^2=>25`

, of which there are `128/25 => 5`

(`25, 50, 75, 100, 125`

). Of those, there is but `128/125 => 1`

that provides more than two factors, and since `125/(5^4) => 0`

, no numbers contribute more than three divisors. Hence, the total number of five divisors is:

```
128/5 + 128/25 + 128/125 #=> 31
```

(Note that, for `125`

, which has three divisors of `5`

, one is counted in each of these three terms; for `25`

, `50`

, etc., which each have two factors of `5`

, one is counted in each of the first terms.)

For arbitrary `n`

, we first compute the highest power `k`

for which:

```
5**k <= n
```

which is:

```
k <= Math.log(n)/Math.log(5)
```

so the largest such value is:

```
k = (Math.log(n)/Math.log(5)).to_i
```

As @spundun noted, you could also calculate `k`

by simply iterating, e.g.,

```
last = 1
(0..1.0/0).find { |i| (last *= 5) > n }
```

The total number of factors of five is therefore

```
(n/5) + (n/25) +...+ (n/5**k)
```

Defining:

```
r = 1/5,
```

this sum is seen to be:

```
n * s
```

where

```
s = r + r**2 +...+ r**k
```

The value of `s`

is the sum of the terms of a geometric series. I forget the formula for that, but recall how it's derived:

```
s = r + r**2 +...+ r**k
sr = r**2 +...+ r**(k+1)
s-sr = r*(1-r**k)
s = r*(1-r**k)/(1-r)
```

I then did some rearrangement so that only only integer arithmetic would be used to calculate the result.