The first argument to `Array`

is intended to be a function which is applied to each array index (in this case, the values 1 through 7). If you evaluate

```
Array[Random[Real, {-10, 10}], 7]
```

The result is something like this:

```
{3.91766[1], 3.91766[2], 3.91766[3], 3.91766[4], 3.91766[5],
3.91766[6], 3.91766[7]}
```

What has happened is this:

`Random[Real, {-10, 10}]`

is evaluated producting `3.91766`

.
- This result is used as a "function" and is applied to each array index.

Thus we see a list of expressions like `3.91766[1]`

, an odd expression where a real number is being applied like a function to an integer.

If the intent is generate a list of 7 different random numbers, one could use:

```
Array[Random[Real, {-10, 10}] &, 7]
```

The only difference between this and the original expression is the presence of '&'. This makes the first argument a function. The function is applied to each array index (but ignores it), and then returns a new random number each time.

An alternative way to obtain this result uses `Table`

:

```
Table[Random[Real, {-10, 10}], {7}]
```

In current versions of Mathematica, the `Random`

function is obsolete and has been replaced by `RandomInteger`

and `RandomReal`

. In this case, `RandomReal`

is useful:

```
RandomReal[{-10, 10}, 7]
```

... where the first argument is the range to choose from and the second argument is the number of desired values. Note that higher dimensional random arrays can also be generated, e.g.

```
RandomReal[{-10, 10}, {7, 7}]
```