You can use the following LINQ chain:

```
int[] array2 = new int[] { 1, 3, 5, 7, 9 };
var random = new Random();
var total = (int)array2.
OrderBy(digit => random.Next()).
Select((digit, index) => digit*Math.Pow(10, index)).
Sum();
```

First, it orders the elements randomly, then it selects each element multiplied by 10 raised to the power of its index, then sums them together and casts the result to an integer. Also, please note that I didn't provide an useful seed for your `Random`

instance. You might want to do that, to produce pseudo-random results.

You might also want to use a method for exponentiation described here, to avoid having to cast to an integer.

EDIT: As Rhumborl pointed out, you may just need the shuffled array. In that case:

```
var shuffledArray = array2.OrderBy(n => random.Next()).
ToArray();
```

Should work for you.

`var array2 = new int[] { 1, 3, 5, 7, 9 }.OrderBy(_ => rnd.Next())`

enough? – I4V Jan 13 '13 at 15:29every possible ordering is equally likely? And do you also require a guarantee thatit is not possible to deduce future shuffles from past shuffles? (The latter requirement is necessary for games of chance; if you can deduce future decks from current decks then online poker gets a lot easier.) If the answer to either question is yes then none of the answers posted here are correct. If you don't care about small bias or ability of attackers to predict your internal state then the answers posted here are reasonable. – Eric Lippert Jan 13 '13 at 16:56