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In fact, drop vertically down from any PD squared number until you intersect with its squared complement and you will have landed on a Primitive Pythagorean Triple (PPT) row, with a^2 + b^2 culminating with c^2 where that row now intercepts horizontally with the PD, giving a^2 + b^2 = c^ . Repeating this will identify all the PPTs.
But wait! Now divide every Inner Grid (IG) cell value by 24 and you will generate a criss- crossing diamond grid overlay pattern with almost magical properties!
The BIM÷24 grid will break out the overall matrix into two (2) types of ODD Axis rows:
• those ÷3 that are never PPT, never PRIMES = Non-Active Rows (NON-AR);
• those NOT ÷3 that PPTs and PRIMES are exclusively found on = Active Row Sets (ARS) or Active Rows (AR) for short.
NOTE: a necessary, but not sufficient, condition as some AR have neither.
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PRIMES_vs_NO-PRIMES
By RBrooks
Identifying the PRIMES (P) from the NO-PRIMES (NP) from the pool of ODD numbers is a matter of separation, as one defines the other. Amongst a list of all the ODD numbers (≥3), one may reveal ALL the PRIMES (P) simply be identifying ALL the NO-PRIMES (NP). Two new methods: 1.) algebraic and 2.) algebraic geometry — identify ALL the NP from any list of sequential ODD numbers.
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