From:  Ross Finlayson <ross.a.finlayson@gmail.com>
Date:  04 Sep 2024 04:27:02 Hong Kong Time
Newsgroup:  news.alt119.net/sci.logic
Subject:  

Re: Moment and Motion: hypercube distance

NNTP-Posting-Host:  null

On 08/27/2024 01:48 PM, Ross Finlayson wrote:
> On 08/27/2024 04:48 AM, Python wrote:
>> Le 25/08/2024 à 17:55, Ross Finlayson a écrit :
>>> On 08/21/2024 01:01 PM, Ross Finlayson wrote:
>>>> On 08/21/2024 12:07 AM, Python wrote:
>>>>> Le 21/08/2024 à 03:32, Ross Finlayson a écrit :
>>>>>> On 08/14/2024 12:13 PM, Ross Finlayson wrote:
>>>>>>> On 08/14/2024 03:58 AM, Python wrote:
>>>>>>>> Le 14/08/2024 à 04:24, Ross Finlayson a écrit :
>>>>>>>>> On 07/30/2024 01:59 PM, Ross Finlayson wrote:
>>>>>>>>>> On 07/23/2024 01:03 PM, Ross Finlayson wrote:
>>>>>>>>>>> On 07/17/2024 05:06 PM, Ross Finlayson wrote:
>>>>>>>>>>>> On 07/17/2024 02:01 PM, Jim Burns wrote:
>>>>>>>>>>>>> On 7/17/2024 3:47 PM, Ross Finlayson wrote:
>>>>>>>>>>>>>
>>>>>>>>>>>>>
>>>>>>>>>>>>>> Moment and Motion: theory overall
>>>>>>>>>>>>>>
>>>>>>>>>>>>>> https://www.youtube.com/watch?v=BEpS_C7Yl2A
>>>>>>>>>>>>>>
>>>>>>>>>>>>>> Movement and change, quantification, universals, induction
>>>>>>>>>>>>>> and
>>>>>>>>>>>>>> limits of induction, Feynman lectures, mathematical physics,
>>>>>>>>>>>>>> infinity and complements and reversals, law(s) of large
>>>>>>>>>>>>>> numbers,
>>>>>>>>>>>>>> natural deduction, quantum mechanics, teleological
>>>>>>>>>>>>>> principles,
>>>>>>>>>>>>>> thorough theory, comfort with canon, least action and
>>>>>>>>>>>>>> ubiquitous
>>>>>>>>>>>>>> levers, sum-of-histories sum-of-potentials, time and
>>>>>>>>>>>>>> distance,
>>>>>>>>>>>>>> distance and travel, gravity and perceived force, gravity and
>>>>>>>>>>>>>> orbits,
>>>>>>>>>>>>>> gravity and shadow gravity, flux and book-keeping, real
>>>>>>>>>>>>>> potentials,
>>>>>>>>>>>>>> time scales, cosmological theories, length scales, atomic
>>>>>>>>>>>>>> scale,
>>>>>>>>>>>>>> normalization after quantization, continuum mechanics,
>>>>>>>>>>>>>> four-field
>>>>>>>>>>>>>> theory, parallax and peripheral parallax, optical
>>>>>>>>>>>>>> non-linearity,
>>>>>>>>>>>>>> photons
>>>>>>>>>>>>>> and electron and wavelength, Angstrom and Planck scale,
>>>>>>>>>>>>>> atomic
>>>>>>>>>>>>>> theory,
>>>>>>>>>>>>>> the terrestrial setting, probability, limit theorem(s),
>>>>>>>>>>>>>> law(s) of
>>>>>>>>>>>>>> chance
>>>>>>>>>>>>>> and uncertainty, uniformization, Bernoulli trials and Cantor
>>>>>>>>>>>>>> spaces,
>>>>>>>>>>>>>> superclassical flow, question words, Heisenberg and
>>>>>>>>>>>>>> sampling and
>>>>>>>>>>>>>> measurement and observer effects, experimental and
>>>>>>>>>>>>>> fundamental
>>>>>>>>>>>>>> theory, mathematics with infinity, monist dualism, "A
>>>>>>>>>>>>>> Theory",
>>>>>>>>>>>>>> Zeno's
>>>>>>>>>>>>>> swath, the stacks.
>>>>>>>>>>>>>
>>>>>>>>>>>>> Your sentence no verb.
>>>>>>>>>>>>>
>>>>>>>>>>>>> Did you (RF) have something you wanted to say ABOUT
>>>>>>>>>>>>> movement and change, ..., the stacks?
>>>>>>>>>>>>>
>>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>> https://www.youtube.com/@rossfinlayson
>>>>>>>>>>>>
>>>>>>>>>>>> Looks I've volunteered a hundred or two hours, of it.
>>>>>>>>>>>>
>>>>>>>>>>>> This is in the context where there is line-continuity,
>>>>>>>>>>>> in the line, field continuity, on the line, and the
>>>>>>>>>>>> signal-continuity ABOUT the line.
>>>>>>>>>>>>
>>>>>>>>>>>> What I've arrived at about motion and changes in motion
>>>>>>>>>>>> and the infinitely-many higher derivatives of displacement,
>>>>>>>>>>>> with respect to time, that is any change in motion,
>>>>>>>>>>>> is "Zeno's swath", a thought experiment where not only
>>>>>>>>>>>> does the arrow reach its target, it starts and ends
>>>>>>>>>>>> at rest.
>>>>>>>>>>>>
>>>>>>>>>>>> Of course there's my tens of thousands of posts to
>>>>>>>>>>>> sci.math, sci.logic, and sci.physics.relativity.
>>>>>>>>>>>>
>>>>>>>>>>>> All one theory, ..., "A Theory".
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>> Moment and Motion:  hybercube distance
>>>>>>>>>>>
>>>>>>>>>>> https://www.youtube.com/watch?v=Y8nxBU-WVQI
>>>>>>>>>>>
>>>>>>>>>>> Zeno's swath integral, orders of acceleration, motion
>>>>>>>>>>> as rest to rest, length and distance, velocity and speed,
>>>>>>>>>>> arbitrary boxes, hypercubes, block hypermatrices, path
>>>>>>>>>>> integral, corners of the hypercube and the main diagonal,
>>>>>>>>>>> symmetry and reflection, zero and the trivial, hat-style
>>>>>>>>>>> analysis, hat-style as a complement to Fourier-style,
>>>>>>>>>>> sawtooth and the sigmoid, frame-spaces and space-frames,
>>>>>>>>>>> general relativity and conformal mapping, methods and
>>>>>>>>>>> means in analysis, projective and perspective, thinking
>>>>>>>>>>> over time, color, visible light, vision, parallax and peripheral
>>>>>>>>>>> parallax, light as geometric and optical, four optical
>>>>>>>>>>> responses,
>>>>>>>>>>> pigments' function, quantum theory, paleoclassical
>>>>>>>>>>> superclassical
>>>>>>>>>>> theory, atomic theory and electron physics, the model of
>>>>>>>>>>> electron
>>>>>>>>>>> orbitals, molecular chemistry and resonance theory, four
>>>>>>>>>>> conserved quantities, flux and flow, asymptotic freedom,
>>>>>>>>>>> quantum theories, light speed and free information,
>>>>>>>>>>> particle mechanics and quantum amplitudes, particles and rays,
>>>>>>>>>>> particles and beams, electrons and photons, reciprocals and
>>>>>>>>>>> addition formulae, the fluid model and liquid and electrical
>>>>>>>>>>> current, supermodels of wave theory, the phenomenological
>>>>>>>>>>> and observables, object sense and deductive infinity,
>>>>>>>>>>> multiplicity theory, zero as a sum, Zeno's bowstring and
>>>>>>>>>>> hat analysis, standard analysis.
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>
>>>>>>>>>> Moment and Motion:  theory typing
>>>>>>>>>>
>>>>>>>>>> https://www.youtube.com/watch?v=EZ88Qvxvc3M
>>>>>>>>>>
>>>>>>>>>> Hypercube unit distance, dimensions and units, infinitely-many
>>>>>>>>>> higher orders, underdefinition in classical mechanics, finite
>>>>>>>>>> element
>>>>>>>>>> analysis, paleo-classical super-classical, vis-viva and
>>>>>>>>>> vis-motrix,
>>>>>>>>>> Zeno's theories, hypercubic and hyperbolic, hypercube and
>>>>>>>>>> hypocube,
>>>>>>>>>> moments and motions, object/subject distinction, maturation of
>>>>>>>>>> theory,
>>>>>>>>>> linear inductive curriculum, mathematical rigor and formalism,
>>>>>>>>>> constancy in definition, theory for itself, natural philosophy,
>>>>>>>>>> definition and formalism, extensionality and abstraction, qualia,
>>>>>>>>>> higher geometry, analysis and definitions of analysis, complex
>>>>>>>>>> analysis,
>>>>>>>>>> analysis situs, anaphora and cataphora, analytical bases and
>>>>>>>>>> analytical
>>>>>>>>>> bridges, instruction and curriculum, the acquisition of object
>>>>>>>>>> sense,
>>>>>>>>>> complex analysis and polar coordinates, hypercube distance and
>>>>>>>>>> modeling change, classical and linear theories, coordinates and
>>>>>>>>>> geometry,
>>>>>>>>>> axiomless natural deduction and axiomless geometry, unit
>>>>>>>>>> hybercube
>>>>>>>>>> distance.
>>>>>>>>>>
>>>>>>>>>>
>>>>>>>>>>
>>>>>>>>>
>>>>>>>>> Moment and Motion: elementary singularity
>>>>>>>>>
>>>>>>>>> https://www.youtube.com/watch?v=UiaXlMkre_g
>>>>>>>>>
>>>>>>>>> Time and differentiation, vision and the phi phenomenon,
>>>>>>>>> theory of mechanics and dynamics, parameterized and parametrized,
>>>>>>>>> hypercube distance, turns and angles, mathematics, the
>>>>>>>>> infinitary and
>>>>>>>>> super-standard, infinitary wholes, laws of convergence and large
>>>>>>>>> numbers,
>>>>>>>>> continuity and definition, numerical resources,
>>>>>>>>> not-a-real-function's
>>>>>>>>> with real analytical character, finite element analysis, the
>>>>>>>>> stacks,
>>>>>>>>> numerical methods, Funes, unification in field theory,
>>>>>>>>> symmetry-breaking,
>>>>>>>>> super-symmetry, the potential fields as the real fields, high
>>>>>>>>> and low
>>>>>>>>> energy
>>>>>>>>> and configuration, higher geometry, Kodaira, Kodaira's approach,
>>>>>>>>> Stone,
>>>>>>>>> Hodge, de Rham, analyticity, Kodaira's elementary approach under
>>>>>>>>> Hilbert
>>>>>>>>> space and the Eulerian-Gaussian, identity dimension, harmonics and
>>>>>>>>> potential theory, harmonic integrals of the second and third kind,
>>>>>>>>> reading, optics, Laurent series and Riemann-Roch, classical
>>>>>>>>> generalization
>>>>>>>>> of potential theory, Weyl, Zariski, holomorphy, determinantal
>>>>>>>>> analysis
>>>>>>>>> and cumulants and orthogonants, singular integrals, adjoints and
>>>>>>>>> adjuncts, holomorphic functions and algebraic varieties,
>>>>>>>>> Riemann-Roch
>>>>>>>>> theorem.
>>>>>>>>>
>>>>>>>>>
>>>>>>>>>
>>>>>>>>> School's in, you truants.
>>>>>>>>>
>>>>>>>>>
>>>>>>>>
>>>>>>>> In the paradigm of quantum kinematics, the fluxional displacement
>>>>>>>> of an
>>>>>>>> inertial tensor manifests as a symbiotic relationship between
>>>>>>>> entropic
>>>>>>>> harmonics and relativistic gravitons. When evaluating the
>>>>>>>> antimatter
>>>>>>>> oscillations within a superluminal framework, the baryonic pressure
>>>>>>>> gradients inversely correlate with the squared velocities of
>>>>>>>> photonic
>>>>>>>> quarks. Consequently, applying Newtonian mechanics to a
>>>>>>>> multidimensional
>>>>>>>> string lattice results in the decoherence of transient muons,
>>>>>>>> thereby
>>>>>>>> quantizing the frictionless spinor fields. This culminates in a
>>>>>>>> paradox
>>>>>>>> where the centrifugal anomalies exceed the Planck constant,
>>>>>>>> rendering
>>>>>>>> the conservation of angular momentum asymptotically negligible.
>>>>>>>>
>>>>>>>> In the realm of differential topology, the infinitesimal
>>>>>>>> calculus of
>>>>>>>> hyperdimensional manifolds reveals that the integration of a non-
>>>>>>>> Euclidean epsilon-delta limit induces a fractal divergence within
>>>>>>>> the
>>>>>>>> parametric zeta functions. When differentiating a transcendental
>>>>>>>> series
>>>>>>>> along a complex vector field, the resulting partial derivatives
>>>>>>>> exhibit
>>>>>>>> an intrinsic discontinuity at the asymptotic singularity. This
>>>>>>>> necessitates the application of stochastic integral calculus, where
>>>>>>>> the
>>>>>>>> Laplace transformation of a chaotic system yields a non-convergent
>>>>>>>> integral over an imaginary axis. The derivative of a hyperbolic
>>>>>>>> tangent
>>>>>>>> function, when expanded into an infinite Taylor series,
>>>>>>>> paradoxically
>>>>>>>> converges to an irrational number, thus invalidating the
>>>>>>>> fundamental
>>>>>>>> theorem of calculus within the confines of a topological knot.
>>>>>>>>
>>>>>>>>
>>>>>>>
>>>>>>>
>>>>>>> What happens is that beneath the Planckian regime, there
>>>>>>> is that time and mass and length, "roll up" or "curl up", as
>>>>>>> is a concept from superstring theory, repurposed to reflect
>>>>>>> that a hologrammatic model of a continuum, results the
>>>>>>> vanishing yet seminal wavelets, say, of the infinitesimal
>>>>>>> kernels of the central moments of low energy symmetry,
>>>>>>> as what reflects a notion of "white holes" in what is a
>>>>>>> "Dirac positronic / Einstein white-hole sea".
>>>>>>>
>>>>>>> Then, there are no paradoxes, of course, then what's reflected
>>>>>>> is that in the trans-Planckian regime, it is continuum mechanics
>>>>>>> that reflects on the resources of the numerical continuum this
>>>>>>> hologrammatic model, in as to why all the central moments,
>>>>>>> their "initial impulses", the "little end" of the infinite series
>>>>>>> that any change in dynamics effects to reflect, is not paradoxical,
>>>>>>> instead as of continuum mechanics of here the low energy
>>>>>>> configuration, in as to where "pseudo-momentum" makes
>>>>>>> for that resonance theory establishes the extra-local.
>>>>>>>
>>>>>>>
>>>>>>> Now, you might feed that back into your generator,
>>>>>>> the output of which there is about the best thing
>>>>>>> you've ever said.
>>>>>>>
>>>>>>>
>>>>>>> It's a continuum mechanics.
>>>>>>>
>>>>>>>
>>>>>>>
>>>>>>> The trailing part where it wanders off after the stochastic,
>>>>>>> is because its stochastic model doesn't reflect that various
>>>>>>> what are usual "uniqueness" results in the usual standard
>>>>>>> analysis after the deMoivrian-Eulerian-Gaussian, which is
>>>>>>> alright, result instead a distinctness result and various
>>>>>>> counterexamples in the non-standard yet real analysis.
>>>>>>>
>>>>>>>
>>>>>>>
>>>>>>> "Cube Wall"
>>>>>>>
>>>>>>>
>>>>>>
>>>>>>
>>>>>> Moment and Motion: current theory
>>>>>>
>>>>>> https://www.youtube.com/watch?v=KvCIj3QNheg
>>>>>>
>>>>>> Dynamics, dynamis and dunamis, the study of mechanics,
>>>>>> meters per second and seconds per meter, continuum mechanics,
>>>>>> the dimensional resonator and alternator, diligence, language
>>>>>> of mathematics and equi-interpretability, models of mechanics,
>>>>>> inertia and momentum, fictitious forces and true centrifugal,
>>>>>> gravity and direction, the paleo-superclassical, pseudo-momentum
>>>>>> and the kinematic, mathematical continuity, the digital and analog,
>>>>>> analog computers, classical mechanics' scientific strength,
>>>>>> potential in mathematics, learning mathematics, journey to
>>>>>> mathematics, foundations, analysis and the Eulerian-Gaussian,
>>>>>> Kodaira's novel deconstructive account, completions, the
>>>>>> mechanics of waves, standard calculus, stoichiometry,
>>>>>> particle/wave duality the super-classical concept, idealism,
>>>>>> large numbers and laws of large numbers, standard formalisms,
>>>>>> Hilbert's "Infinite Living, Working, Museum of Mathematics",
>>>>>> quantum mechanics and continuum mechanics, desiderata
>>>>>> and requirements of theory, theory of everything, religion,
>>>>>> ontological commitment and voluntary submission, theory
>>>>>> with truth, learning and knowing, Augustine and Scholasticism,
>>>>>> Buridan's donkey, Church-Rosser theorem, photon rocket and
>>>>>> equivalence principle, theory.
>>>>>
>>>>> You should adjust the dose, Ross. This can be dangerous.
>>>>>
>>>>>
>>>>>
>>>>
>>>> Yet, zero m/s is infinity s/m,
>>>> so 0 doses/second is infinity seconds/dose,
>>>> how can it change at all?
>>>>
>>>> Continuously, how are the infinitely-many orders
>>>> in displacement in time, at all?
>>>>
>>>>
>>>> If you follow those readings it's pretty
>>>> much done with most science.
>>>>
>>>> And mathematics, ....
>>>>
>>>>
>>>>
>>>
>>>
>>> Moment and Motion: returning physics
>>>
>>> https://www.youtube.com/watch?v=522kHReG63U
>>>
>>> Geology, thermodynamics, thermoelectric junctions,
>>> electron physics and neutrino/muon physics, continuum
>>> mechanics and total field theory, causality and connectedness,
>>> crisis in physics, theory improved, Boethius' definitions,
>>> physics and metaphysics, replete continuum mechanics,
>>> paradox-free physics, Higgs' boson, luminous matter,
>>> scientific mathematical physics, Kodaira and Zariski,
>>> holomorphic functions and analytic functions, analyticity
>>> without complex numbers, Kodaira and Zariski with
>>> analytic forms in algebraic geometry, "inverse limits"
>>> when alternatives, reconstructing varieties, limits of
>>> linearity, requirements of theory, personal theory.
>>>
>>
>>
>> **Title: "Theoretical Physics: A Culinary Guide to the Kangaroo Paradox
>> and Pigeon Thermodynamics"**
>>
>> *Abstract:*
>> In this groundbreaking treatise, we explore the intersection of
>> metaphysics, slow cooking, and kangaroo-based thought experiments
>> through the lens of Boethius' definitions and the Copenhagen
>> interpretation. By leveraging thermoelectric junctions and
>> reconstructing varieties of free will, we delve into the paradox-free
>> physics of luminous matter. Our aim is to resolve the crisis in physics
>> by redefining the Higgs boson as the missing ingredient in the perfect
>> pigeon pie.
>>
>> **1. Introduction:**
>> The foundation of modern physics has long been troubled by a crisis of
>> connectedness, where the principles of causality are as elusive as the
>> neutrino's mass. Here, we propose a theory improved by integrating the
>> thermodynamics of slow-cooked kangaroos with the holistic total field
>> theory, inspired by Kodaira and Zariski’s seminal work on analytic
>> functions and algebraic geometry.
>>
>> **2. Geology and Thermodynamics:**
>> The earth, much like a well-cooked stew, is governed by the principles
>> of geology and thermodynamics. We posit that the heat generated by the
>> earth's core is not merely a result of radioactive decay, but rather the
>> slow-cooking of subterranean pigeons. These pigeons, subjected to the
>> pressures of continuum mechanics, undergo a phase transition that
>> contributes to the planet's thermoelectric junctions, further
>> influencing global neutrino emissions.
>>
>> **3. Electrons, Muons, and Kangaroo Physics:**
>> Electrons, typically confined to their orbits, are analogous to
>> kangaroos bound by the rules of quantum mechanics. The Copenhagen
>> interpretation, when applied to kangaroo physics, suggests that a
>> kangaroo can simultaneously exist in a state of hopping and non-hopping,
>> depending on the observer's position. This duality, akin to the
>> wave-particle nature of light, challenges the linearity of classical
>> physics and requires an overhaul of electron physics to accommodate the
>> kangaroo paradox.
>>
>> **4. Higgs Boson and Pigeon Analyticity:**
>> The Higgs boson, often referred to as the "God particle," plays a
>> crucial role in imbuing mass to matter. We suggest that this mass is
>> equivalent to the nutritional value found in a well-roasted pigeon. By
>> extending holomorphic functions to include slow-cooked poultry, we
>> develop a framework for analyticity without complex numbers, where the
>> flavor profile of pigeons defines the limits of linearity in scientific
>> mathematical physics.
>>
>> **5. Crisis in Physics and the Replete Continuum Mechanics:**
>> The crisis in physics has been exacerbated by the neglect of culinary
>> metaphysics. By reintroducing Boethius' definitions of sustenance into
>> the continuum mechanics, we achieve a replete and paradox-free physics.
>> This approach not only reconciles the limits of linearity with the
>> requirements of theory but also provides a pathway to the holy grail of
>> physics: a pigeon-based Grand Unified Theory (GUT).
>>
>> **6. Free Will, Inverse Limits, and the Personal Theory:**
>> Free will, often regarded as a metaphysical construct, finds its place
>> within the inverse limits of scientific inquiry. Through a personal
>> theory that intertwines quantum mechanics with the freedom of choice in
>> slow-cooking methods, we reconstruct varieties of free will that are
>> consistent with the Copenhagen interpretation. This leads us to
>> question: Can a kangaroo choose its hopping path, or is it predetermined
>> by the constraints of continuum mechanics?
>>
>> **7. Conclusion:**
>> In conclusion, we have demonstrated that the integration of slow
>> cooking, pigeons, and kangaroos into the framework of modern physics not
>> only resolves long-standing paradoxes but also provides a deliciously
>> satisfying resolution to the crisis in physics. The luminous matter of
>> our universe, once thought to be dark and mysterious, is now understood
>> as the product of slow-cooked pigeon thermodynamics, elegantly explained
>> by the replete continuum mechanics of Boethius and his culinary
>> descendants.
>>
>> *Keywords: Kangaroo Paradox, Pigeon Thermodynamics, Higgs Boson, Free
>> Will, Continuum Mechanics, Boethius’ Physics, Quantum Cuisine*
>>
>> ---
>>
>> And thus, the theory is complete—at least until the next meal.
>
> Better than usual, ....
>
>
> Reading Robert Grosseteste's mediaeval treatise on light,
> it really has a lot going on with the center and the center
> and the center, before wandering off from that into a numerological
> consideration as after the order of Aristotle's predicaments, as
> of the eventually count-down to relation the predicate and the
> term where Albert the Great and Peter of Spain's quiddity and
> quality and then for Scotus the haeccity/univocity, has that
> Australia hadn't really been discovered yet the super-classical
> description of light and flux, makes for that Grosseteste's
> description as after aliqot parts the fundamental flux of light,
> is a novel survivor with some measure of priority.
>
>


Punctuated motion

The mechanics of motion are most people's
best known "laws" of physics, then about the
infinitely-many higher orders of acceleration,
about punctuated motion, bring to jerk, then
snap, crankle, and pop, jank, even, the idea of
the lurch, fits and starts, leaps and bounds,
and a hop, skip, and a jump, with regards to
the punctuated Bessel's functions as skew-periodic,
makes a frame for hypercube distance.