I did a mini biathalon today (6 mile bike ride, 2,100 yards swimming). As I rode out, seeing the flashing dots in my vision I was again struck by the irony of seeing so much and losing my vision. It was hot, but too pretty to sit inside, too pretty to just swim so I mixed my workout up, showing that however boring I am, occasionally I can do something at least a little different.
Not sure how much of that I can do, but I continue to thingk that a heart attack might be the lesser of several evils I face.
But that's not what this is about. This is about zero and how zero, the real zero, not the nothing that you've been tricked by your grade school math teacher into believing.
Read on.
The whole dark matter thing and history is one of the recent break throughs that show how important it is to compare the theory to observations.
But it does more because it forces us to look at gravity and history in another way. We're going to do that, but first we have to understand what zero is and it's not nothing, as you've been led to believe by Ms. Busstop.
We look at 0,1,1 as being F(1)=2 but that's our universe thinking, o-space math. This is because there is no true zero in AuT. The zero is a combination of 1 and -1 at the very least, not true zero. There is no nothing in AuT only. To our nature the appear to cancel each other out, but in reality, they may well be and I'll posit this now, the algorithmic glue that holds linearity of states together.
We have the evolving pi looking something like this:
Sum(0 to q)[n/2+q] for each pi for each change in q for each state alternating with the negative spiral solutions. The average pi is a sum of these sum solutions or sum(1toq)[sum0toq(n/(2+q)) plus the negative spiral solutions.
What is significant about this equation. First, it's not an equation that operates with out math. Second, it relies on an 'alternating switch.' to go from positive to negative in order to be a converging series.
Note that we're most familiar with this where n=4, but that's not the point.
The point is that this is an F-series equation with a missing factor, a equation that has both positive and negative elements, zero.
So the equation looks like this Sum(0 to q)[0'(n/(2+q)]=geo where 0' is the state of zero alternating between positive an negative states.
The spirals are F-series stacked functions built according to this same equation: S(tot)=sum(0 to q) [geo0(F(q)] so that you have opposite spirals offset according to geo (a function of pi) and according to the F-series for each spiral alternating between positive an negative spirals but having the length change so that the alternating spirals eventually intersect in two dimensional space to overlap after very long periods of curvature, sufficient for the first dimensional pi to cause them to circle back with sufficient consistency to have ct2 overlap, which is, after all very low; but the process repeats itself for higher values of n.
While a bit rough, this introduces a new feature into the mathematics of o-space, the alternating value of zero containing a positive and an offset negative which sequentially expresses itself to yield the observed equation, something built into the F-series for ct1, namely the zero in 0,1,1 which alternating function allows it to glue together alternating solution to form gravity.
Let's look at how this might work:
F(x)=0(F(q) so that spirals would be created (for q=3) like this:
1,1,2,3,5
-1,-1,-2,-3
1,2,3
With each of these offset from the others by an evolving geo function and ultimately overlapping solutions to achieve stable compression states. While far from complete, what this does is give us an available feature of the equation which we're used to seeing as zero but which, like everything else in AuT, is not what we're used to, but what we know it to be in a non-dimensional universe where neither nothing, nor space time exist.
Not sure how much of that I can do, but I continue to thingk that a heart attack might be the lesser of several evils I face.
But that's not what this is about. This is about zero and how zero, the real zero, not the nothing that you've been tricked by your grade school math teacher into believing.
Read on.
The whole dark matter thing and history is one of the recent break throughs that show how important it is to compare the theory to observations.
But it does more because it forces us to look at gravity and history in another way. We're going to do that, but first we have to understand what zero is and it's not nothing, as you've been led to believe by Ms. Busstop.
We look at 0,1,1 as being F(1)=2 but that's our universe thinking, o-space math. This is because there is no true zero in AuT. The zero is a combination of 1 and -1 at the very least, not true zero. There is no nothing in AuT only. To our nature the appear to cancel each other out, but in reality, they may well be and I'll posit this now, the algorithmic glue that holds linearity of states together.
We have the evolving pi looking something like this:
Sum(0 to q)[n/2+q] for each pi for each change in q for each state alternating with the negative spiral solutions. The average pi is a sum of these sum solutions or sum(1toq)[sum0toq(n/(2+q)) plus the negative spiral solutions.
What is significant about this equation. First, it's not an equation that operates with out math. Second, it relies on an 'alternating switch.' to go from positive to negative in order to be a converging series.
Note that we're most familiar with this where n=4, but that's not the point.
The point is that this is an F-series equation with a missing factor, a equation that has both positive and negative elements, zero.
So the equation looks like this Sum(0 to q)[0'(n/(2+q)]=geo where 0' is the state of zero alternating between positive an negative states.
The spirals are F-series stacked functions built according to this same equation: S(tot)=sum(0 to q) [geo0(F(q)] so that you have opposite spirals offset according to geo (a function of pi) and according to the F-series for each spiral alternating between positive an negative spirals but having the length change so that the alternating spirals eventually intersect in two dimensional space to overlap after very long periods of curvature, sufficient for the first dimensional pi to cause them to circle back with sufficient consistency to have ct2 overlap, which is, after all very low; but the process repeats itself for higher values of n.
While a bit rough, this introduces a new feature into the mathematics of o-space, the alternating value of zero containing a positive and an offset negative which sequentially expresses itself to yield the observed equation, something built into the F-series for ct1, namely the zero in 0,1,1 which alternating function allows it to glue together alternating solution to form gravity.
Let's look at how this might work:
F(x)=0(F(q) so that spirals would be created (for q=3) like this:
1,1,2,3,5
-1,-1,-2,-3
1,2,3
With each of these offset from the others by an evolving geo function and ultimately overlapping solutions to achieve stable compression states. While far from complete, what this does is give us an available feature of the equation which we're used to seeing as zero but which, like everything else in AuT, is not what we're used to, but what we know it to be in a non-dimensional universe where neither nothing, nor space time exist.
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