Nothing Special   »   [go: up one dir, main page]

The Squaring Pi and the Floating point.
Of ferman: Fernando Mancebo Rodriguez--- Personal page. ----Spanish pages

You can see many of my works, in the following pages:

PHYSICS:
COSMIC and ATOMIC MODEL ||| Video: Cosmic and atomic model
Double slit and camera obscura experiments: ferman experiment ||| Type of Waves: Questions of Quantum Mechanics
The socurces of gravity. ||| In favour of the cosmos theory of ferman FCM ||| Theory of Everything: summary
Model of Cosmos. ||| Development speed of forces.||| Magnets: N-S magnetic polarity.
Stellar molecules ||| Static and Dynamic chaos||| Inversion or Left-right proof ||| Scheme approach TOE
Chart of atomic measures||| The main foundations of the Cosmos' Structure ||| Unstable particles in accelerators
Short summary atomic model ||| Positive electric charges reside in orbits.||| Mathematical cosmic model based on Pi.
Inexactness principle in observations ||| Einstein and the gravity ||| The Universal Motion ||| Atomic particles
Cosmic Geometry ||| Bipolar electronic: semiconductors ||| Multiverse or multi-worlds||| Light and photons
Quantum explanation of Gravity ||| Real physics versus virtual physics ||| The window experiment
Atomic Density ||| Linkin: Coeficients Lcf Mcf ||| Atomic nuclei structuring: Short summary
Few points about Cosmic Structuring.||| What is Time||| Simultaneity ||| The Cosmic tree ||| The Cosmic entropy
Interesting and short life of neutrons ||| Leptons field ||| Macro Microcosm, the same thing.
Fourth dimension of space.||| The way to get a unity theory||| UHECR Ultra-high-energy-cosmic-rays
Magnetic or entropy forces: types or classes||| Time observation and time emission ||| The universe expansion
Planetary Mechanics : Short summary ||| Easy explanation of the Planetary model||| State and type of Particles
Higgs boson and fields: wrong way ||| The positron proof: main types of magnetic fields ||| The gravity proof
Current state of cosmology ||| Electromagnetic charges: reason and procedure ||| Neutron: The short and interesting life of
Type of Magnetic Forces ||| The big-bang and Universe' expansion ||| Astronomical chart: Astros, asteroids and microids
Certainty Principle: easy explanation ||| Certainty Principle and the Schrodinger's Cat ||| Wave function collapse
Relativity versus QM ||| The non-curvature of space by matter ||| The Master Clock
Ferman's light analysis ||| Cosmos basic elements, summary||| Comparative numbers in double slit experiment
Stars dimensions ||| Orbital situation of electrons ||| Bright cores versus Black holes
Summary of Ferman cosmic vision and models ||| Atomic nuclei similar to stars ||| Stationary time, but not local neither relativist
Neutrinos versus background radiation ||| Saturn says no to Einstein curvature.||| Da: Average density of energy in the cosmos
Gravity versus magnetic fields of force ||| Black holes cannot exist||| Expansion of materials by energy
Particles in accelerators: almost infinite ||| Trans-dimensional or ideal loupe||| 4D of space, time and matter
5D x 6D = Universal motion x time = Cosmic energy ||| The six cosmic dimensions
Neutrinos ||| Nature of light ||| Hydrogen atom ||| Uncertainty principle: test||| Criticism to Quantum M
Invariance Principle of Time ||| Stuffing forces and heat particles||| Physical waves and imaginary waves
Higgs fields and bosons: Imaginary elements||| Higgs bosons predictions||| Exotic particles
Stars as copies of atoms ||| ERF: Energy rebalancing forces||| Big Bang reality
MATHEMATICS:
Radial coordinates.||| Physical and mathematical sets theory. | Algebraic product of sets.
Planar angles: Trimetry.||| Fractions: natural portions.||| Cosmic spiral ||| Inverse values of parameters and operation
Equivalence and commutive property of division. ||| Concepts and Numbers. ||| Bend coefficient of curves ||| Mathematical dimensions
Transposition property ||| Accumulated product: Powers ||| Dimensional Geometry: Reversibility
Priority Rule in powers and roots ||| The decimal counter ||| The floating point index ||| Paradoxes in mathematics
Direct formula for Pi: The Squaring Pi. ||| The pyramids of Squaring Pi. ||| Functions of Pi ||| Integration formulas Pi.
Squaring the Circle ||| Cocktail formula for Squaring Pi.||| Orbital coordinates in motion: Summary
Oscillating function: Cartesian oscillators ||| The ciclo as unit of angular speed ||| Squaring circles ruler and compass |||
Video: Squaring circles ruler and compass ||| The number Phi and the circumference.speed |||
The The extended Pi ||| Angles trisection||| Squaring the Circle regarding Phi||| Video of the two squares method
Discusion about the Pi as transcendental number|||: Not transcendental Pi||| The chained sets|||
Properties of equalities in limits||| The Phi right triangles ||| Pi and the Circumscription Theorem
Pi triangle by squaring the circle : Vedeo Pi triangle ||| Squaring Pi demonstration by circumscription Theorem LatexPdf
Doubling the cube ||| Framing the circle ||| Phi and Pi: relation formula
Squaring circle with Phi (to 0.000005 of ideal ruler and compass)||| Sbits: Static and dinamic orbital coordinates
Squaring Pi and the Floating Point
OTHER:
Spherical molecules. ||| Genetic Heredity. ||| Metaphysics: Spanish only. ||| Brain and Consciousness. ||| Type of Genes T and D
Certainty Principle ||| From the Schrodinger cat to the Ferman's birds ||| The meaning of Dreams
Freely economy ||| Theoricles of Alexandria ||| Rainbow table of elements.||| Satire on the Quantum Mechanics
Cancer and precocious aging ||| Hardware and software of Genetics ||| The farmer and the quantum physicist
Dreams and unconscious logical computing ||| Intelligence and logic ||| How our brain and mind work
INVENTIONS:
Andalusian Roof Tile. ||| Rotary Engine. ||| Water motors: Vaporization engines.
Triangular ferman's Houses .||| Pan for frying and poaching eggs ||| The fringed forest
Summary of Hydraulic Chenge Box ||| Ferman fingernails
ARTICLES:
The Emperor's new clothes and the QM ||| Garbage Triangle: Quantum mechanics, Relativity, Standard theory
Fables and tales of the relativists clocks.||| Nuclei of galaxies.||| Particles accelerators.
Hydrocarbons, water and vital principles on the Earth. ||| Cosmos formula : Metaphysics
Ubiquity Principle of set.||| Positive electric charges reside in orbits.
Chaos Fecundity. Symbiosis: from the Chaos to the Evolution.||| Speed-Chords in galaxies.
The ancient planets Asteron and Poseidon.||| The man and the testosterone.||| Toros say ||| The essence of life
Chaos + symbiosis = evolution ||| Future Cosmology: Satire on Relativity and Quantum Mechanics
The stupid tale of the astronaut that did not age ||| Summary of Ferman cosmic vision and models
Climate due to human activity ||| Humans as herd animals
METAPHYSICS:
Video Universal Consciousness||| Who is God ||| Faces of God ||| Web Universal consciousness
Creation: Highlights||| First steps in metaphysics ||| A personal experience
Reason for the Cosmos' creation ||| The essence of life ||| Cosmic Entity: Metaphysics and Physics parameters

Email: ferman25@hotmail.com
Email: ferman30@yahoo.es

The Squaring Pi and the Floating point

[HOTLIST]

The Squaring Pi, expressed as a Floating Point.

Friends, I understand that the squaring Pi has all the properties that the correct Pi must have, and therefore any critical mathematician "could" conclude that this is the correct Pi number.
* (All these properties can be seen on the web page corresponding to this work. (Pi: Direct Formula)).
Here we are going to see a characteristic that for me is very curious and mathematically interesting, and that simplified, it could be:
--- If we subject the Squaring Pi number to successive powers (Pi^n)......
--- And the solutions are expressed in the form of a Floating Point (FP = significand x base ^ exp.)......
--- We will have that for the exponent (exp=8), the significand will be ((2.Sqrt2) = Semi-square inscribed to the circumference of radius 1).
* For this solution, we will have subjected to sPi, to the power 17 (Pi^n = Pi^17)
------------------------
Therefore, and if we want to use this property to obtain the squaring Pi, it is enough to go through the formula in the opposite direction.
sPi = f(2) = [(2Sqrt2 x 10^8 )]^(1/17) = 3.14159144414199..........
-----------------------
Logically, this property of exponentiation of Pi is fulfilled by the Squaring Pi, but not by the current algorithmic Pi:
Squaring Pi -------- sPi^17 / 10^8 = 2.8284271247461....... = 2Sqrt2
Algorithmic Pi ----- aPi^17 / 10^8 = 2.82844563586533....NOT= 2Sqrt2
-----------------------
*** As complementary information, it must be said that exp=8, is the sum of the exponents (of radius 1) necessary to obtain the semi-square inscribed in the circumference by the Pythagorean theorem, theorem that is used as a principle and logical basis for obtaining (and explaining) the squaring Pi. (see drawing)

-----------------------

** Since Pi^2 is minor but close to 10^1, this case the exact relationship occurs when Pi(^2n+1) = b.10^n, and therefore for n=8 (sum of exponents by the Pythagorean theorem)

------------------------

[HOTLIST]

Some qualities of the squaring Pi:

-- In the first place, a basic and very important quality for me is that of being obtained by the DIECT formula of all the constructive parameters of the circumference (Diameter, square circumscribed to the circumference, inscribed square) as well as the use of the Pythagorean theorem, of the Floating Point, (drawing) etc.
And it is important because it is the way to get the perimeters of all geometric figures (simple and regular geometric figures do not use approximation formulas to find their perimeter).
But it is that this property makes it a SPECIAL Pi number, since it is the only adjustment in the history of mathematics, that uses a direct formula, and not an approximation one as in the other methods.
In good logic, the approximation methods should not give us an exact result, since they do not have any construction parameter (reference parameter) of the circumference (r=1).

-- Another property of squaring Pi is that with formulas of its powers, we can obtain (to infinity) all the squares and circumscribed circles on a given one (ciscunscription theorem).