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**Primenumbers****Member**- Registered: 2013-01-22
- Posts: 127

Fermat's Last Theorem states that no three positive integers a, b, and c satisfy the equation

for any integer value of n strictly greater than two.Let

where n >2Then

must equal:must have opposite remainders for

Adding y to one and minusing y from another will keep them opposite if they are already opposite. So let's see if the two squares have opposite remainders for .

If we add them together they should=0 if they are opposite.

No!

Fermat's Last theorem is True.

**"Time not important. Only life important."*** - The Fifth Element 1997*

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**thickhead****Member**- Registered: 2016-04-16
- Posts: 1,051

What you are writing as remainder looks like quotient w.r.t c^n.

**{1}Vasudhaiva Kutumakam.{The whole Universe is a family.}(2)Yatra naaryasthu poojyanthe Ramanthe tatra Devataha{Gods rejoice at those places where ladies are respected.}**

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**googol****Member**- From: Delft, The Netherlands
- Registered: 2016-04-22
- Posts: 13

**10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000**

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**thickhead****Member**- Registered: 2016-04-16
- Posts: 1,051

Now it looks like Primenumbers' ** LOST THEOREM **

**{1}Vasudhaiva Kutumakam.{The whole Universe is a family.}(2)Yatra naaryasthu poojyanthe Ramanthe tatra Devataha{Gods rejoice at those places where ladies are respected.}**

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