Interesting Times

Lately that elusive substance that is Free Time has seemingly evaporated, as a multitude of pursuits collide. In particular, my quest for a Private Pilots Licence and my preparations for half a year in Australia have me rushed off my feet. But I made a resolution that my entries won’t turn into lamenting for lack of free time, so enough about that.

I recently compiled an actual paper checklist for something that has existed for a long time only in my head: the Checklist for the Future. On it are a number of key innovations and milestones, such as Antigravity and Civilian (Orbital) Spaceflight. The idea being that once all the boxes are ticked, we will be in the future. Obviously. Exciting stuff!

Yesterday I came across a fascinating documentary about chaos, spontaneous pattern formation and the Mandelbrot Set. I recommend checking it out, particularly if the ideas of order emerging from nothing and predictable systems having unpredictable outcomes interests you at all. I find it encouraging that it still doesn’t invalidate the physics behind my Chonoportology writings, too (that does, in essence, try to answer the question of what actually determines the A or B path of any given event).

In other news, THIS:

The Harrington Experiment

As established already*, Liang Oscillation is the behaviour exhibited by the continuum of spacetime when altered. The quantum states of particles are defined by the 5th ‘meta dimension’, which is best thought of as the path of spacetime. When a Chrononaut alters past events (or visits them), they enact a change on the shape that spacetime occupies in the meta dimension.

Plotting a space-time graph, we can imagine the history of a complex system to be represented as a line. From an abserver looking at this history the system’s history is fixed. To the present, the past is a straight line and the future is non existant. Now, if we make a small change to the system at a point some time ago, spacetime will ‘veer off’, as a sequence of chaos amplifies to make a very immediate change. This ‘butterfly effect’ was predicted by Chaos Theory as early as 2.0.C. However, unknown at the time, a curious property of the meta dimension is that the path of quantum probability has an ‘optimum’, almost like a river settling into a valley. This leads a change in the system to eventually reverse and invert repeatedly, our ‘line’ of spacetime waving up and down until the deviances slowly converge and the system’s distant future is largely unchanged from how it was originally; hence the ‘occillation’ Dr Liang postulated in 2.9.C.

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