Pierre De Fermat
Pierre de Fermat Pierre de Fermat was born in the year 1601 in Beaumont-de-Lomages,

France. Mr. Fermat\'s education began in 1631. He was home schooled. Mr. Fermat
was a single man through his life. Pierre de Fermat, like many mathematicians of
the early 17th century, found solutions to the four major problems that created
a form of math called calculus. Before Sir Isaac Newton was even born, Fermat
found a method for finding the tangent to a curve. He tried different ways in
math to improve the system. This was his occupation. Mr. Fermat was a good
scholar, and amused himself by restoring the work of Apollonius on plane loci.

Mr. Fermat published only a few papers in his lifetime and gave no systematic
exposition of his methods. He had a habit of scribbling notes in the margins of
books or in letters rather than publishing them. He was modest because he
thought if he published his theorems the people would not believe them. He did
not seem to have the intention to publish his papers. It is probable that he
revised his notes as the occasion required. His published works represent the
final form of his research, and therefore cannot be dated earlier than 1660. Mr.

Pierre de Fermat discovered many things in his lifetime. Some things that he did
include: -If p is a prime and a is a prime to p then ap-1-1 is divisible by p,
that is, ap-1-1=0 (mod p). The proof of this, first given by Euler, was known
quite well. A more general theorem is that a0-(n)-1=0 (mod n), where a is prime
to n and p(n) is the number of integers less than n and prime to it. -An odd
prime number can be expressed as the difference of two square integers in only
one way. Fermat\'s proof is as follows. Let n be prime, and suppose it is equal
to x2 -y2 that is, to (x+y)(x-y). Now, by hypothesis, the only basic, integral
factors of n and n and unity, hence x+y=n and x-y=1. Solving these equations we
get x=1 /2 (n+1) and y=1 /2(n-1). -He gave a proof of the statement made by

Diophantus that the sum of the squares of two numbers cannot be the form of

4n-1. He added a corollary which I take to mean that it is impossible that the
product of a square and a prime form 4n-1[even if multiplied by a number that is
prime to the latter], can be either a square or the sum of two squares. For
example, 44 is a multiple of 11(which is of the form 4 x 3 - 1) by 4, therefore
it cannot be expressed as the sum of two squares. He also stated that a number
of the form a2 +b2, where a is prime b, cannot be divided by a prime of the form

4n-1. -Every prime of the form 4n+1 is accurate as the sum of two squares. This
problem was first solved by Euler, who showed that a number of the form 2(4n+1)
can be always showen as the sum of two squares, of course it was Mr. Pierre de

Fermat. -If a, b, c, are integers, a2 + b2= c2, then ab cannot be a square.

Lagrange solved this. - The determination of a number x such that x2n+1 may be
squared, where n is a given integer which is not squared. Lagrange gave a
solution of this also. -There is only one integral solution of the equation x2
+4=y3. The required solutions are clearly for the first equation x=5, and for
the second equation x=2and x=11. This question was issued as a challenge to the

English mathematicians Wallis and Digby. -No basic values of x, y, z can be
found to satisfy the equation xn+yn=zn; if n is an integer greater than 2. This
thesis has achieved extraordinary celebrity from the fact that no general
demonstration of it has been given, but there is no reason to doubt that this
true. -Fermat also discovered the general theorem that was on the guess that a
number can be found into the product of powers of primes in only one way. These
were some interesting things that Mr. Fermat did in his life. During Mr.

Fermat\'s life many things happened as world events. First Ludolph Van Ceulen
died, there is a site dedicated to this long-ignored mathematician, who spent
his entire life, approximating Pi to 35 places. Then Blaise Pascal lived his
entire life, born in 1623 and died in