Re: Moment and Motion: hypercube distance

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Sujet : Re: Moment and Motion: hypercube distance
De : ross.a.finlayson (at) *nospam* gmail.com (Ross Finlayson)
Groupes : sci.math sci.logic sci.physics.relativity
Date : 03. Sep 2024, 21:27:02
Autres entêtes
Message-ID : <_dCdndCxD-CO7Er7nZ2dnZfqnPadnZ2d@giganews.com>
References : 1 2 3 4 5 6 7 8 9 10 11 12 13 14
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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:
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Moment and Motion: theory overall
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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.
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Your sentence no verb.
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Did you (RF) have something you wanted to say ABOUT
movement and change, ..., the stacks?
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https://www.youtube.com/@rossfinlayson
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Looks I've volunteered a hundred or two hours, of it.
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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.
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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.
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Of course there's my tens of thousands of posts to
sci.math, sci.logic, and sci.physics.relativity.
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All one theory, ..., "A Theory".
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Moment and Motion:  hybercube distance
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https://www.youtube.com/watch?v=Y8nxBU-WVQI
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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.
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Moment and Motion:  theory typing
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https://www.youtube.com/watch?v=EZ88Qvxvc3M
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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.
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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.
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School's in, you truants.
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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.
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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.
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Now, you might feed that back into your generator,
the output of which there is about the best thing
you've ever said.
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It's a continuum mechanics.
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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.
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"Cube Wall"
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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.
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Yet, zero m/s is infinity s/m,
so 0 doses/second is infinity seconds/dose,
how can it change at all?
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Continuously, how are the infinitely-many orders
in displacement in time, at all?
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If you follow those readings it's pretty
much done with most science.
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And mathematics, ....
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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.
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**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*
>
---
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And thus, the theory is complete—at least until the next meal.
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Better than usual, ....
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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.
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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.

Date Sujet#  Auteur
17 Jul 24 * Moment and Motion: theory overall20Ross Finlayson
17 Jul 24 `* Re: Moment and Motion: theory overall19Jim Burns
18 Jul 24  `* Re: Moment and Motion: theory overall18Ross Finlayson
23 Jul 24   `* Re: Moment and Motion: hypercube distance17Ross Finlayson
30 Jul 24    `* Re: Moment and Motion: hypercube distance16Ross Finlayson
6 Aug 24     +- Re: Moment and Motion: hypercube distance1Ross Finlayson
14 Aug 24     `* Re: Moment and Motion: hypercube distance14Ross Finlayson
14 Aug 24      `* Re: Moment and Motion: hypercube distance13Python
14 Aug 24       +* Re: Moment and Motion: hypercube distance10Ross Finlayson
21 Aug 24       i`* Re: Moment and Motion: hypercube distance9Ross Finlayson
21 Aug 24       i `* Re: Moment and Motion: hypercube distance8Python
21 Aug 24       i  `* Re: Moment and Motion: hypercube distance7Ross Finlayson
25 Aug 24       i   `* Re: Moment and Motion: hypercube distance6Ross Finlayson
27 Aug 24       i    `* Re: Moment and Motion: hypercube distance5Python
27 Aug 24       i     `* Re: Moment and Motion: hypercube distance4Ross Finlayson
3 Sep 24       i      +- Re: Moment and Motion: hypercube distance1Ross Finlayson
4 Sep 24       i      `* Re: Moment and Motion: hypercube distance2Ross Finlayson
10 Sep 24       i       `- Re: Moment and Motion: hypercube distance1Ross Finlayson
21 Aug 24       `* Re: Moment and Motion: hypercube distance2gharnagel
21 Aug 24        `- Re: Moment and Motion: hypercube distance1Ross Finlayson

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