Well, the minimum number of that format is `1020304050607080900`

which has square root `1010101010.10...`

. And the maximum number of that format is `1929394959697989990`

which has square root approx. `1389026623.11`

.

Start at the lower bound, and iterate through to the upper bound. You use regex or even rudimentary string character matching, just check that the first char is 1, the 3rd char is 2, etc.

Also, I think a `long`

would be sufficient for this.

EDIT:

I just ran this on my machine, it took around 2 minutes. I suck at regex so I did it primitive style.

```
public static void main(String[] args) {
for (long l = 1010101010; l < 1389026623; l++) {
long squared = l * l;
String s = Long.toString(squared);
if (s.charAt(0) != '1') continue;
if (s.charAt(2) != '2') continue;
if (s.charAt(4) != '3') continue;
if (s.charAt(6) != '4') continue;
if (s.charAt(8) != '5') continue;
if (s.charAt(10) != '6') continue;
if (s.charAt(12) != '7') continue;
if (s.charAt(14) != '8') continue;
if (s.charAt(16) != '9') continue;
if (s.charAt(18) != '0') continue;
System.out.println(s);
}
}
```

The result was `1929374254627488900`

(this is the squared number). Therefore, the root number is `1389019170`

. Also note this is the **only** number I found matching the pattern, not just the minimum.

`BigInteger`

and iterating until one number matches the desired pattern (can be verified with a regex after doing`toString()`

on the number) is simple (though not efficient) solution. – amit Dec 9 '12 at 0:43