The most popular example of using recursion is calculating the factorial of a positive integer $ N $. The factorial of a positive integer $ N $ is just the product of all the integers from $ 1 $ to $ N $. For example, the factorial of $ 5 $, written as $ 5! $, is calculated as $ 5 * 4 * 3 * 2 * 1 = 120 $. The definition of the factorial function itself is recursive.

$$ \text{fact}(N) = N * \text{fact}(N - 1) $$

The corresponding pseudocode is shown below.

function FACT(N)
    if N == 1
        return 1
    else
        return N * FACT(N-1)
    end if
end function

The recursive version of the factorial is slower than the iterative version, especially for high values of $ N $. However, the recursive version is simpler to program and more elegant, which typically results in programs that are easier to maintain over their lifetimes.