(3^n + 2^n) % 10 for large n

So I have a number N that has maximum 9 digits and I have to get the last digit of 3^n + 2^n. Is there a rule for this kind of problem? The code I have so far:

``````#include <fstream>
#include <algorithm>
#include <math.h>
using namespace std;

ifstream fin("input.in");
ofstream fout("input.out");

int main(){
int n;
fin>>n;

fout<<fmod(pow(3,n)+pow(2,n),10);
}
``````

However, If I use this and n is greater than 1000 it displays nan.

My question is: Is there a rule to such a problem?

Well, we know that `(3^n + 2^n) % 10` = `((3^n % 10) + (2^n % 10)) % 10`, so we can use Modular Exponentation to quickly solve this.

The basic premise is that `3^n % 10 = (3 * (3^(n-1) % 10)) % 10`

• That worked great! Thank you a lot! – Chor May Feb 18 '17 at 21:19
• @ChorMay Glad to help! – Tyzoid Feb 18 '17 at 21:34

Well, the easiest answer is the following:

``````3^0 === 1;
3^1 === 3;
3^2 === 9;
3^3 === 7;
3^4 === 1;
3^5 === 3;
``````

So, 3^n has last digit of 3, 9, 7 or 1, based on N. So, N%4 == 0 => last digit of 3^n is 1, == 1 =>3, == 2 => 9, == 3 => 7.

You can write out the same for 2^n:

1, 2, 4, 8, 6, 2, ...

This cycle can be repeated all the time, ruling out the primary rule: last digit for 2^n is:

``````N == 0 => 1
N > 0 =>
(N - 1) % 4 == 0 => 2
(N - 1) % 4 == 1 => 4
(N - 1) % 4 == 2 => 8
(N - 1) % 4 == 3 => 6
``````

After you calculated the last digit for both 3^n and 2^n, just add them together.

• That's a great way of thinking, thank you for your input! – Chor May Feb 23 '17 at 19:08

You can solve it mathematically. Let's look at the sequence un = 3^n % 10: u0 = 1, and then 3, 9, 7, and 1 again. It gives immediately:

u4k = 1, u4k+1 = 3, u4k+2 = 9, u4k+3 = 7

Now look at vn = 2n % 10: v0= 1 and then 2,4,8,6, and 2 again. It gives that for k > 0:

v4k = 6, v4k+1 = 2, v4k+2 = 4, v4k+3 = 8

You immediately have the result: for N > 1 just look at N' = N%4, and the results are respectively 7, 5, 3, 5

In C++, it will give:

``````#include <fstream>
using namespace std;

ifstream fin("input.in");
ofstream fout("input.out");

int main(){

int n;
fin>>n;

int result[] = { 7,5,3,5};
fout<<(n == 0) ? 2 : result[n%4];
return 0;
}
``````