Chapter 7;;  Math
                   7.1 Fermat's Theorem Fermat's Last Theorem


                   X^n+ Y^n = Z^n No positive integers (without positive integer)
                   for X, Y and Z when n is > 2


                   1. This topic can be solved with a computer.

                   2. You can use a computer to solve
                   3. X=Y;; X can, equal to Y


                   Example:
                   X= Y = 4 n = 3 Z = 5

                   X^n+ Y^n = Z^n
                   2(4^3) = 128 vs 5^3=125 Poor 3 (Can be, yes or no) (See

                   people's wisdom)
                   There is a tendency that this sum is changed from less than Z^n

                   to greater than Z^n
                   So at the time of derivation, we infer that there will be a sum of

                   positive integer combinations equal to Z^n.
                   The sum of positive integer combinations is (X^n + Y^n)


                   7.2 Calculating the pi
                   Math pi = Pi;; See Pi.

                   Circumference = d/dR pi( R^2) = 2 Pi ( R) R= Radius = radius
                   Use a rope or tape/ or ruler, or rope ruler measure to measure the
                   length of the circumference and measure the length of the

                   radius. Circumference = 2 Pi (radius) Substituting the
                   circumference, and the length of the radius, you can find Pi.


                   7.3 Playing card chance:

                   In thirteen. JQKA2 is the top number instead of JQK, so the
                   probability is 5/13 instead of 3/13.


                   7.4 American University dropout rate