The fifth power of any one-digit number ends with that number:

0^{5} = 0

1^{5} = 1

2^{5} = 32

3^{5} = 243

4^{5} = 1024

5^{5} = 3125

6^{5} = 7776

7^{5} = 16807

8^{5} = 32768

9^{5} = 59049

11/26/2016: UPDATE, after hearing from some readers who are thinking more deeply than I am:

First, this immediately implies that *any* integer raised to the fifth power ends with the same digit as the original number.

Second, the same effect occurs regularly at higher powers, specifically 9, 13, 17, and *x* = 1 + 4*n* where *n* = {0, 1, 2, 3, …}.

Does anyone know what this rule is called? I found it in Reuben Hersh and Vera John-Steiner’s 2011 book *Loving + Hating Mathematics* — Eugene Wigner writes of falling in love with numbers at his school in Budapest: “After a few years in the gymnasium I noticed what mathematicians call the Rule of Fifth Powers: That the fifth power of any one-digit number ends with that same number. Thus, 2 to the fifth power is 32, 3 to the fifth power is 243, and so on. At first I had no idea that this phenomenon was called the Rule of Fifth Powers; nor could I see why it should be true. But I saw that it was true, and I was enchanted.”

I actually can’t find a rule by that name. Perhaps it goes by a different name in English-speaking countries?

(Thanks, Evan, Dave, and Sid.)