Answer to Question #165644 in Combinatorics | Number Theory for Hiroshima

CORRECTED SOLUTION

7. The statement "For each m ≥ 1 and n ≥ 1, if m is even and n is odd, then m + n² or m² + n is prime." is false. If m=2n then both m + n²=n(n+2) and m² + n=n(4n+1) are divisible by n.

8. The statement "For n ≥ 1, if n is even or divisible by 3, then n² + n is divisible by 6." is false.

If n=6k+4 then n is even, but n² + n=(36k²+12k+16)+(6k+4)=6(6k²+3k+3)+2 is not divisible by 6.

9. The statement "For each n ≥ 1, if n is neither even nor divisible by 3, then n²-1 is divisible by 6" is true.

Since n is not divisible by 3, "n=3m\\pm 1" for some integer m.

m must be even, otherwise n will be even. Let m=2k, then "n=6k\\pm 1" and

"n^2-1=(6k\\pm 1)^2-1=36k^2 \\pm 12k"

is divisible by 6.