Date: Feb 19, 2017 6:30 AM
Author: bassam king karzeddin
Subject: The non existence of p'th root of any prime number, for  (p>2)<br> prime

Why does the trustiness of Fermat's last theorem implies directly the non existence of the real positive arithmetical  p'th root of any prime number
($\sqrt[p]{q}$)?

Where (p) is odd prime number, and (q) is prime number

It is an easy task for school students NOW!

Regards
Bassam King Karzeddin
19/02/17