@Mikael Eriksson already mentioned a numbers table / tally table (search for it online, there are LOTS of possible uses, many DBAs always want a tally table to be present in any system they manage)
I just wanted to share one non-recursive CTE-based "tally table" solution that I saw online the other day, that I think it amazingly elegant for its huge range (4 thousand million logical rows) and general applicability without any database dependencies:
E00(N) AS (SELECT 1 UNION ALL SELECT 1),
E02(N) AS (SELECT 1 FROM E00 a, E00 b),
E04(N) AS (SELECT 1 FROM E02 a, E02 b),
E08(N) AS (SELECT 1 FROM E04 a, E04 b),
E16(N) AS (SELECT 1 FROM E08 a, E08 b),
E32(N) AS (SELECT 1 FROM E16 a, E16 b),
cteTally(N) AS (SELECT ROW_NUMBER() OVER (ORDER BY N) FROM E32)
WHERE N >= 2500
AND N <= 2700
AND N % 10 = 0
I found it here, but I don't know whether that's the original source of this CTE.
The nice thing about it is that you don't need to worry about min, max, or step size, and yet it performs very well in most (one-off) situations. That said, it should NOT be used in any frequently-called business process; Any physical indexed numbers table will always perform better!
EDIT: I just searched a little more for the source of this method (I had missed the stackoverflow link in the article I referenced), and apparently it's originally attributed to Itzik Ben-Gan, from the bottom of page 255 in a book titled "Inside Microsoft SQL Server 2005 - T-SQL Querying" (says Jeff Moden, who I implicitly trust).