# iterBessely1
> Create an [iterator][mdn-iterator-protocol] which iteratively evaluates the [Bessel function of the second kind][@stdlib/math/base/special/bessely1] of order one.
## Usage
```javascript
var iterBessely1 = require( '@stdlib/math/iter/special/bessely1' );
```
#### iterBessely1( iterator )
Returns an [iterator][mdn-iterator-protocol] which iteratively evaluates the [Bessel function of the second kind][@stdlib/math/base/special/bessely1] of order one.
```javascript
var array2iterator = require( '@stdlib/array/to-iterator' );
var it = iterBessely1( array2iterator( [ 2.0, 0.0 ] ) );
// returns
## Notes
- If an iterated value is non-numeric (including `NaN`), the returned [iterator][mdn-iterator-protocol] returns `NaN`. If non-numeric iterated values are possible, you are advised to provide an [`iterator`][mdn-iterator-protocol] which type checks and handles non-numeric values accordingly.
- If an environment supports `Symbol.iterator` **and** a provided [iterator][mdn-iterator-protocol] is iterable, the returned [iterator][mdn-iterator-protocol] is iterable.
## Examples
```javascript
var uniform = require( '@stdlib/random/iter/uniform' );
var iterBessely1 = require( '@stdlib/math/iter/special/bessely1' );
// Create a seeded iterator for generating pseudorandom numbers:
var rand = uniform( 0.0, 2.0, {
'seed': 1234,
'iter': 10
});
// Create an iterator which consumes the pseudorandom number iterator:
var it = iterBessely1( rand );
// Perform manual iteration...
var r;
while ( true ) {
r = it.next();
if ( r.done ) {
break;
}
console.log( r.value );
}
```
[mdn-iterator-protocol]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Iteration_protocols#The_iterator_protocol
[@stdlib/math/base/special/bessely1]: https://www.npmjs.com/package/@stdlib/math/tree/main/base/special/bessely1