Because this is an operator involving relations, it can be assumed that the result must also be a relation insofar as is possible in SQL i.e. not duplicate columns, no duplicate rows, no nulls, etc. As an aside, note that if no attributes of relations `R`

and `S`

are common then their natural join will yield the same result as their product.

As already pointed out, if `R`

and `S`

have some common attributes (same name, same type) then in SQL the product of the tables will produce duplicate columns. Disregarding the idea of querying the `INFORMATION_SCHEMA`

, the relax-join cannot be generalized in SQL. Instead, we must use explicit projections i.e. `SELECT`

clauses with explicit attributes, at least some of which must be 'dot qualified'. Say for example we have `R { x, y }`

and `S { y, z }`

with `y`

being a common column then the product can be expressed as:

```
SELECT DISTINCT R.x, R.y, S.z
FROM R CROSS JOIN S
```

That is, the projection of all attributes of `R`

and the attributes of `S`

known not to be common. There are numerous other possibilities that will yield the same result but all involve prior knowledge of the attributes involved including whether any are common.

Having accepted that the projection must be explicit, nothing is lost by expressing the natural join as its theta join equivalent i.e. `[INNER] JOIN`

with an `ON`

clause:

```
SELECT DISTINCT R.x, R.y, S.z
FROM R JOIN S ON R.y = S.y
```

Likewise, we have no need for the SQL keyword `CORRESPONDING`

(as in `UNION CORRESPONDING`

). Happily, this all means that my queries will all run on my SQL product of choice (SQL Server)!

One approach, I think hinted at by J Cooper, is the union of a) the natural join (which could be the empty set), and b) the product where the natural join is the empty set:

```
SELECT R.*, S.z
FROM R JOIN S ON R.y = S.y
UNION
SELECT R.*, S.z
FROM R CROSS JOIN S
WHERE NOT EXISTS ( SELECT *
FROM R JOIN S ON R.y = S.y );
```

Another approach is the product minus the symmetric difference ('mutually exclusive tuples') where the natural join is not the empty set:

```
SELECT R.*, S.z
FROM R CROSS JOIN S
EXCEPT
SELECT R.*, S.z
FROM R JOIN S ON R.y <> S.y
WHERE EXISTS ( SELECT *
FROM R JOIN S ON R.y = S.y );
```

`A(x,y)`

with`B(y,z)`

would yield a table with 3 columns:`(x,y,z)`

in SQL. – ypercube Feb 20 '12 at 1:19