I will try to fix the proof once again
Assume that there exist a finite amount of twin prime numbers.
Then we can construct a list, which in this case will be S, S= A1,A2,A3,A4...An
Let P be the product of all twin prime numbers in S, P= A1*A2*A3*A4..An
Let Q=P+1
If Q is a twin prime number then S is not complete
If Q is composite then some prime factor p divides Q, if this factor p were in our list S then it would divide P, but p divides P+1=Q. If p divides P and Q then p would have to divide the difference of the two numbers, which is (P+1)P or just 1. Since no twin prime number divides 1, p can not be on the list. This means that at least one twin prime number exists
beyond those in the list.
Last fiddled with by MathDoggy on 20190415 at 15:30
