Absolutely

 

My Blue Heaven

You find a cozy place, fireplace, a cozy room
A little nest that nestles where the roses bloom
Just Mollie and me
And the baby makes three
We're happy in my blue heaven

My Blue Heaven is where THREE lives!

In the list of prime numbers, the first prime number is 1, the second prime number is 2, and the third prime number is 3. If there is only one absolute, could two and three also be special numbers? If there is only one absolute, and an individual sees things in 1-D, that is said to be seeing things in only Black and White: 0 or 1.  Seeing things in 2-D, seeing shades of grey, is an improvement and there are many shades of grey between 1-White and 0-Black. But seeing things in 3-D, color, colorizing Black and White, is not just adding one to the shades of grey. For example, if there are 256 shades of grey, there are not 256+(0+1) or 257 colors. It does not multiply the shades of grey, for example there are not 256*2 or 704 colors. It is SQUARING the shades of grey, for example there are 256² or 65,536 colors possible.

If there is one absolute, space is hyperbolic, and the absolute is at the center of a two-sheeted hyperboloid, then this is consistent with a Minkowski transformation of the three dimensions of space (width, length, and height) into one combined dimension of "space". If the fourth dimension, time, is a differential equation of "space", per Einstein’s General Theory of Relativity,  but the “space” between dimensions is hyperbolic, then if the coefficient of the fifth dimension is held constant, then it would appear to an observer within a two-sheeted hyperboloid that there are only four dimensions. But it would appear to an observer from only one sheet of that two-sheeted hyperboloid that there are only three dimensions, even when viewing the absolute which defines the hyperboloid. The absolute defines both sheets of the hyperboloid and can, and does, exist in either sheet of the hyperboloid, so it is 3‑D. But to an observer in only one sheet of the hyperboloid even that absolute would appear to be 2-D.

In the game of "Prisoner’s Dilemma", also known as "Tit for Tat", there is a winning strategy for every number of players, if that number of players is greater than THREE. In most games there are at least THREE players: two teams or players AND umpires and/or rules. Any contest can result in wins and losses, stable outcomes, but that contest can also result in ties, a metastable outcome and there can be tie breakers. Engineers know that THREE is a special number. All electrical components can be defined as combinations of THREE elements: resistors, capacitors, and inductors.  All mechanical systems can be defined as THREE elements: sliding motion, a change in position; dashpots, the first derivative of a change in position; and springs, the second derivative of a change in position. A common symbol in engineering is the triskelion with THREE legs. A structure with at least THREE elements, a triangle, is stable. With only two visible outcomes, a solution can only be metastable. The main cable in a suspension bridge appears to follow a parabolic shape in flat space, but it is really a hyperbolic shape. While most chemistry is concerned with the number of protons (the atomic number) and the number of free electrons (the valence), but quantum and nuclear chemistry, and physics, is concerned with THREE particles: protons, electrons, AND neutrons. A proton and neutron is made of up THREE quarks. Excepting gravity, there are THREE fundamental forces: electromagnetic, strong nuclear and weak nuclear.  Economics is concerned THREE things: buyers, sellers AND the goods that they are exchanging. 

In 2-D, individuals may perceive only 5/6 of an Absolute but individuals can act in concert as if they were almost an absolute. (Waves in the crowd at sporting events, anyone?). If the 2-D action is also considered to be winning and true then the Absolute solution is {1,0,0,0} where the value, certainty, of the whole matrix is 1, the value of the columns is true and false, and the value of the rows is wins or losses. But while there is no such thing as a half truth, there is only true and false; there ARE ties in a contest. The result of a contest is a win, a loss AND/OR a TIE: THREE outcomes. Individuals can emulate the Absolute by being winning and true {2/3, 1/6, 0, 1/6} but this is Absolutely True. But Absolutely False is also a solution that is winning {0, 2/3, 1/6, 1/6}, but it is Absolutely False because it almost {0,1,0,0}. But Absolutely True has another characteristic.  The Absolute is in the identity diagonal of the table in Absolutely True while in Absolutely False it is not. That is why the Absolute can have an Absolute Zero AND a repeating zero, while Absolutely False can have one OR the other, but not both. If the space between outcomes is hyperbolic, then Absolutely True repeats if it is rotated clockwise, repeating the sequence i, -1, -i and 1 infinitely, while Absolutely False can not. This is because the absolute is NOT on the identity diagonal and that a clockwise rotation of π/2, is equal to a counter clockwise rotation of 3*π/4, the sequence -i, 1, i and UNDEFINED  can NOT repeat infinitely. A group of individuals acting as, perceiving as, the Absolute to be true  will be .96 ± .02. A group of individuals can also approach the Absolute as -1*(.96 ±.02).

You can not simply add the two of them together and get an Absolute, 0 ± 0. Things just do not work that way. These are matrices AND matrix multiplication is NOT commutative while scalar multiplication IS commutative. Treating the range of the absolute as finite does not make it finite, The observer just finds it useful to treat the range as infinite.  Two wrongs don’t make a right, etc. Below 92% of individuals acting as an absolute are false, but normal. To be true and normal while winning it has  also to be above{.5, .25, 0, .25}.  Above 96% individuals acting as an absolute are 1.0, certain, and  winning but ABnormal. Thus between 1.0, 100%, and .96 or 96%, are ABnormal, but the opposite of True. The opposite of true to the absolute is undefined, NOT false. Acting as if to the absolute, the opposite is FALSE, just as NOT Guilty is NOT the same as innocent, is why there are problems.

Some 2-D solutions are identical to Absolutely True, but most are not. No solutions with only 1-D have a solution. While no solution is black, SOME grays are also a solution, but ALL colors are solutions. Heaven, where the Absolute dwells is thus always in color. 3-D. Heaven is also some 2‑Ds that are also Absolutely True. Undefined is always 1-D. So if you want to go to My Blue Heaven, see things in THREEs even if you are in 2-D.