Every view is important. Yet, some views are more optimistic, creative and productive.

Welcome, welcome, welcome. Thank you for joining us here. We are on an adventure and we need a little help and guidance. Back on December 19, 2011, our high school geometry class was introduced to the big chart on the left.10 It is a very simple view of the entire universe and everything within it, from the smallest possible measurement to the largest, all based on multiplying by 2 and very simple geometries. We were studying embedded geometries and asked, “How far within can we go?” The result, the chart, was helpful for many reasons, but we couldn’t find it anywhere on the web. We asked, “Are we off on the wrong foot?” We dubbed it the Big Board-little universe and began asking the experts about it. Equally perplexed, some encouraged us.

We are now turning to family, friends, and neighbors for help. That big chart on the right measures 62″ x 14″ so it can be a bit awkward to use at your desk. We wanted to present the data in a more simple format to be printed on 8.5×11 inch paper or displayed on a smartphone so we created the chart just below. We dubbed it, the Universe Table. Though it is very much under construction, we’ve decided it will always be under construction. This is a long-term project, so we would like to ask a few questions to help us prioritize and focus on important things to do.

Your Views, Worldviews, Universe View. All views are important. Yet, some views are more optimistic, some are more creative, and some more productive. Our hypothesis is that those who balance their views with a strong worldview and a truly integrated universe view will be the most optimistic, creative and productive.

UT150It is going to take us a long time to figure that out, so we need to get started so we are asking our guests — “Would you please take a very quick, very simple survey, then go on the tour. On the right, you will see a green arrow. Just click on it to begin.

Both charts represent the same thing — the visible universe. The very smallest measurement is the Planck Length. The largest is the Observable Universe. From the smallest to the largest, there are less than 206 notations or steps. Click on each image to see the full-sized rendering.

If you ready to take a tour, click here or on the right pink arrow.

Pink Arrow

ArrowPinkRight

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Notes about Look-and-Feel and Navigation: Links from the headers below the line go to the Index page. If any of the letters from right column, particularly the words, Archives and Meta, are bleeding through the image of the Universe Table, please open your window larger (possibly to full screen). If the header for this page is in more than two lines, you also need to open your window a little larger. If you came back here after completing the survey, please click on the pink arrow on the right to go on the tour of the Big Board-little universe.

Footnotes: On every page there are references and more notes about the how these charts came to be.
The very-simple, philosophical foundations started with concepts of perfection and perfected states within space-time
The simple conceptual starting points
An article (unpublished) to attempt to analyze this simple model that seems to suggest that time is derivative of numbers and space is derivative of geometries. There are pictures of a tetrahedron and octahedron.
A background story: It started in a high school geometry class on December 19, 2011.
The sequel: Almost two years later, a student stimulates the creation of this little tour.

Wikipedia on the Planck length
Wikipedia on the Observable Universe

This project began when we looked inside a tetrahedron and octahedron (two of the most basic geometric figures).1 Think of the embedded Russian (matryoshka) dolls. Usually there are no more than ten. Yet, here inside each tetrahedron there are four half-size tetrahedrons and an octahedron. Inside the octahedron are six half-sized octahedrons and eight tetrahedrons all sharing a common centerpoint and many common edges. It would seem that one could just kept going forever. Yet eventually you will reach the Planck length and can go no further. To standardize our study, we started at the Planck Length and multiplied it by 2 until we were at the Observable Universe. We were surprised to discover only 202-to-206 notations (or steps or layers or doublings) to go from the smallest to the largest measurements of a length.

1 All tetrahedrons and octahedrons have that interior perfection described just above. It appears that these basic objects transform dynamically in ways that capture basic processes within nature. Over the years we will be doing the work to explore these transformations, however, there is a website to learn more about such transformations today: http://loki3.com/poly/transforms.html

The simple math from the Planck Length to the Observable Universe

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