CENTER FOR PERFECTION STUDIES: CONTINUITY•SYMMETRY•HARMONY•USA •GOALS• Tuesday, 18 DEC. 2018
HOMEPAGES: IntroInfinityMaxWeinbergReviewGravityDarkAssumptionsFirst 64EmergenceORIGINAL
If The Universe Starts At The Planck Scale…
by Bruce E. Camber Key Reference: Reformulating Space, Time, and Infinity Also: Deep Roots
At some point in the near future, there will be a major paradigm shift. Simple logic tells us that things start “simple” before becoming complex. Planck Time and Planck Length are simple, possibly the smallest and most simple units of time and length. So, why not entertain a very different model of this universe that begins with the Planck base units? It is highlyintegrated, 100% mathematical and predictive, comprehensive, and overlooked.
PQE. Key scholars within a selective, scientific group, Physics of Quantum Electronics (PQE), have been writing and presenting papers since 1971. They have become a real force in shaping scientific thinking. The report from their Winter 2018 colloquium^{1} was provocative. As a result, I wrote to several participants^{2} to invite them to comment on our simple model of the universe defined by just 202 progressive doublings of Max Planck’s base units. Those units, calculations done in 1899, were little used and relatively unknown. That changed when an MIT physicist and PQE author, Frank Wilczek, wrote three articles, Scaling Mt. Planck, for Physics Today (2001).
Numbers. In my emails to PQE participants, I quickly introduce our rather idiosyncratic model of the universe defined by doubling the four Planck base units, and then each result, over and over again. A most simple chart (and scale) of numbers emerges: 202 doublings (base2 notation) goes from Planck Time to the Age of the Universe today. Please consider these numbers:
1. Planck Base Units. First, assume that the Planck scale indeed “starts at the very beginning.”
2. The First Second of the Universe. Planck Time is so small it takes 143 progressive doublings to reach .60116 seconds. Before the 144th doubling, the universe finally hits that one second mark. The commensurate Planck Length doubling approximates the distance light travels in a second.
3. Light Year. Between notations 168 and 169, a light year emerges; and rather predictably now, the Planck Length approximates the distance light travels in a year.
4. Planck’s little equation for Planck Time: Planck Length (lP) divided by light equals Planck Time (tP) . Throughout all 202 notations, the ratio is a variable of the speed of light yet always within 1% of the value has been confirmed within our laboratories.
5. Light. Taken together, Einstein’s wellknown formula and Planck’s base unit equations, it would seem that all four Planck base units throughout the entire progression are fully integrated and so fundamentally bound together, they could be a Janus face to each other.
6. Largescale universe. Within the 197th notation, largescale structure formation finally begins within the 300million year mark. The 202nd notation is approximately 10.9816 billion years so almost all of this simple model is about the very early universe where real data is lacking.
7. Euler. Taken together, it all appears to be an application of Euler’s exponentiation.
8. Smallscale universe. This model redefines a very smallscale universe with numbers that are too small to measure but important for string theory and those seeking to define dark energy and dark matter. The model accurately orders the humanscale from protons to satellites. And, it defines a natural inflation that approximates the epochs of the ΛCDM model.
It is hard to get anyone’s attention so I am glad you are here. Thank you.
With a bit of analysis, this model redefines space, time, and infinity. Newton’s absolutes are placed in time out. All of the doublings (or notations or groups or sets) are always active, neverending, and neverrepeating (perhaps the beginnings of a new concept of time symmetry). And, yes, I believe this is a very good description of our expanding universe. – BEC
Summary: A focus on a few key ideas
This summary of ongoing work is an evolving list with links. It will begin to appear somewhere within every homepage, de facto a Table of Contents for the website.
 Natural Inflation. This progression of the four Planck base units delineates a natural inflation and a thrust that mimics big bang cosmology.
 Each notation (doubling) defines a boundary; and, logic tells us that each is always active and never the same because of the dimensionless constants involved.
 The Now. Here is a fullness of time that is quantitative, derivative, and finite, so this model does not support absolute space and time.
 Max Planck’s formulas. In 1899 Max Planck redefined the basics.
 The sphere, it would seem, is the first manifestation of spaceandtimeandchargemass.
 The first 67 doublings. Particularly, the first 64 doublings are all below the thresholds of physical measurement, yet these are all still very physical. Called a hypostatic domain, purely mathematical, it redefines the smallscale universe.
 Euler. The universe is fundamentally exponential. Euler’s identity is universal.
 In process: Each notation will be analyzed, notation by notation. It will be within this format this unified theory could possibly unfold. Wouldn’t the role of prime numbers be to determine when new mathematical systems can be introduced?
 Continuity. Order / numbers, first within the dimensionless constants, neverending, never repeating, and then with the progression of spheres.
 Symmetry. Relations / Geometries, first with the symmetry of the spheres, then the symmetry within the tetrahedrons and octahedrons that are generated.
 Harmony. Dynamics / Spacetime where two symmetries actively interact as a moment of spacetime; it is a qualitative moment we experience as harmony.
Endnotes and Footnotes
^{1} Questions. Asking evocative questions, one’s that make you think, is a talent that Socrates and good professors employ. The report from their Winter 2018 colloquium is a bit Socratic.
Challenge us. Coach us. We need all the help we can get.
Which concept is strongest? Which is weakest?
Key documents that were recently homepages:
November 4, 2018: No time for scientific elitism
October 31: The first three minutes revisited
October 26: An introduction to this website and our Chart of Our Universe
October 23: The Redefinition of a Point: Going back to the very beginning
October 22: What comes before Quantum Gravity?
October 20: Five short stories about pages on the website
October 16: Looking in the dark for Dark Matter & Dark Energy
October 12: What would you do with this model of the universe?
October 1: The first 64 notations out of the 202
September 28: An Open letter about nature of light
September 20: “Gravity, Oh Gravity… Why Such Gravity?”
September 19: On Validating The Efficacy of our Model.
September 17: Open Letter (email) – Many similar notes are sent to scholars everyday.
September 14: Your critical review is encouraged.
September 12: Questions – Frequently Asked Questions.
September 5: Commonsense – It is not common and it is not a sense.
August 31: Reviews – You are invited to review an alternative to Big Bang Cosmology.
August 26: Problems – We all must become problem solvers.
August 5: On embracing the functions of our Universe
August 2: This Simple Scale of the Universe
July 23: Big Bang Theories Unnecessary In Light Of A Natural Inflation
July 12: An addendum to the Standard Models and for all algorithms
July 8: Compilations of concepts that could give rise to the 202 doublings
July 4: Revolutions: Foundational Concepts & First Principles
June 21: Planckspheres, dimensionless constants, doublings
May 18: Alternative to the Big Bang theory
April 30: Emergence & Growth from the first moment in time
April 21: More about emergence, growth, and imagination
April 18: Einstein’s Postulates
PLEASE NOTE: Many of the links below may take you to a page outside this website.
An excellent resource to translate any of our pages by its URL:
http://itools.com/tool/googletranslatewebpagetranslator
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More References, Resources, and Research
Though part of the intellectual debates about boundaries, going back 3000 years and more, our particular brand of it comes from Sir Isaac Newton, a point of view formalized in his 1687 book, generally known as The Principia.
If you look up into the heavens on a clear, crisp evening, it looks like it goes on forever. That’s Newton. Another person might say, “It goes just as far as the current expansion of the universe.” To which one of the kids quickly ask, “Well, what’s behind that?” To which I would reply, “infinity.” And, of course, that begs the question, “What’s infinity?”
Infinity is not an easy concept to grasp. As a recent college graduate in 1969, I remember asking myself, “How can we take religion out of infinity and make it more accessible to everyone?” The effort by scholars has become a formal discipline called renormalization. And like so much of scholarship, it is not easy for regular people to understand. Even scholars have problems with it. Freeman Dyson worked on it back in 1949 and more recently, Steven Weinberg reformalized it in 1986. Infinity is such a character, it needs to be corralled so the work of mathematicians and physicists can go on. Of course, it can’t be corralled, but it can appear to be tamed enough to carry on one’s work without getting bitten too badly.
Physicists developed this means to avoid engaging the concept of infinity, then they made that work an art form, and then a fine science unto itself. Initially called renormalization, the process began in earnest with KG Wilson: “His work in physics involved formulation of a comprehensive theory of scaling: how fundamental properties and forces of a system vary depending on the scale over which they are measured. He devised a universal divideandconquer strategy for calculating how phase transitions occur, by considering each scale separately and then abstracting the connection between contiguous ones, in a novel appreciation of renormalization group theory.
“A new scientific truth does not triumph by convincing its opponents and making them see the light, but rather… science advances one funeral at a time.” – Max
Planck’s quote: https://quoteinvestigator.com/2017/09/25/progress/
 Living With Infinities, Steven Weinberg: https://arxiv.org/pdf/0903.0568.pdf
 https://arxiv.org/abs/0903.0568
The Net Advance of Physics: RENORMALIZATION

 http://web.mit.edu/redingtn/www/netadv/Xrenormali.html
 Baez: “…assume you vaguely know what a Lagrangian for a quantum field theory looks like.” http://www.math.ucr.edu/home/baez/renormalization.html
 Feynman, QED: Strange Theory of Matter and Light: https://en.wikipedia.org/wiki/QED:_The_Strange_Theory_of_Light_and_Matter
 A Quantum Pioneer Unlocks Matter’s Hidden Secrets by Elizabeth Gibney (Nature, Sept. 2017): “What if each quantum critical point is just the beginning of another generation? …probing the boundaries around those states could reveal more phases, and studying the boundaries of those could reveal yet more, with discoveries unfolding in a fractal manner.” https://en.wikipedia.org/wiki/Gilbert_George_Lonzarich
 On the Revolutions of the Internal Spheres:
A New Theory of Matter and the Transmission of Light, K. Troy.  https://81018.com/derivative/
 An infinite number of symmetry groups are possible within the first64 notations.
 key conceptual transitions https://81018.com/beyond/ https://81018.com/overview/
 https://81018.com/functions/
 https://en.wikipedia.org/wiki/Growing_block_universe
 Michael Tooley (in 1997) and Peter Forrest (in 2004).
 Tooley, Michael (1997). Time, Tense, and Causation (pdf). Oxford University Press. ISBN ;9780198235798.
 Bourne, Craig (2002). “When am I?”. Australasian Journal of Philosophy. ;80 (3): 359–71. doi:10.1080/713659472. hdl:2299/8627.
 BraddonMitchell, David (2004). “How do we know it is now now?”. Analysis. 64 (283): 199–203. doi:10.1111/j.00032638.2004.00485.x.
 Forrest, Peter (2004). “The real but dead past: a reply to BraddonMitchell”. Analysis. 64 (284): 358–62. doi:10.1111/j.00032638.2004.00510.x.
 Merricks, Trenton (2006). Zimmerman, Dean, ed. GoodBye Growing Block (pdf). Oxford Studies in Metaphysics. 2. Oxford University Press. p. 103. ISBN 9780199290598.
 https://en.wikipedia.org/wiki/Growing_block_universe
 External Links: https://www.iep.utm.edu/time/ (excellent references at the end) Bradley Dowden, California State University, Sacramento