- The document discusses quantum physics and wave-particle duality. It explains that quantum physics views matter and light as exhibiting both wave and particle properties, unlike classical physics. It describes how Schrodinger and Heisenberg developed complementary theories and interpretations of quantum mechanics. The document also summarizes applications of quantum theory including lasers, transistors, and medical imaging. It notes that wave-particle duality remains an ongoing mystery in physics.
Relativity is a magnificent equality principle of nature at creating the universe.
However, it has many counter-intuitive, mind-blogging concepts, and many of us may have a hard time at understanding it.
How could light propagate in vacuum without a media?
How could the speed of light remain constant for all observers?
Why there are time dilation, length contraction, and loss of simultaneity?
Why the laws of nature remain the same for all moving frames?
How could space and time be bent by mass and energy?
Are our brains wired in such a way so that it is always difficult to understand relativity in a natural way?
Or there may exist a new knowledge framework, and a new representation so that relativity become easier to be understood.
This video offers a mechanical approach for the first time to explain relativity.
It attempts to make relativity easier for the general public to understand.
The "theory of everything" was discovered
For physicists the final formula is the "formula of all formulas". Einstein, Heisenberg and many famous physicists have dreamed of this "equation for everything", in vain looking for it their whole lives. Modern science seeks for what holds together the world in the biggest and smallest parts. With the "theory of everything" it is possible to give a clear and unambiguous description of the observable phenomena in nature.
A World novelty
The "theory of everything" -a development of the Max Planck approaches- elegantly combines different phenomena of the microcosm and macrocosm in a plausible explanation. His knowledge of how to use a brief formula as physical "equation of everything" to explain the entire universe, the author wants to share in his ebook.
With the final formula the following fundamental constants and significant physical parameters were derived:
- Elementary charge
- Electron mass
- Proton mass
- Proton radius
- acceleration due to gravity
- Gravitational constant
- Fine structure constant
- Speed of Light
In this ebook, the author wants to share his knowledge of how to use a formula to explain the entire universe, in an easily understandable language. Based on equations derived from fundamental physical constants of nature that play a central role in physics, the author demonstrate that it is possible to explain the entire universe with a brief physical formula as equation of everything.
General relativity vs. quantum mechanics issues of foundations uv 1_oct2018SOCIEDAD JULIO GARAVITO
En este seminario, nos enfocaremos en los asuntos fundamentales relacionados con los pilares actuales de la física, y discutiremos los problemas para la creación de una teoría cuántica de la gravitación, es decir Teoría de Cuerdas, Super-Simetría o SUSY, o una Teoría del Todo.
My presentation regarding the existence of Black Hole - the most interesting and controversial topic in the field of Astronomy and Astrophysics! Explore through my presentation! Hope you will like it! Enjoy reading!
Relativity is a magnificent equality principle of nature at creating the universe.
However, it has many counter-intuitive, mind-blogging concepts, and many of us may have a hard time at understanding it.
How could light propagate in vacuum without a media?
How could the speed of light remain constant for all observers?
Why there are time dilation, length contraction, and loss of simultaneity?
Why the laws of nature remain the same for all moving frames?
How could space and time be bent by mass and energy?
Are our brains wired in such a way so that it is always difficult to understand relativity in a natural way?
Or there may exist a new knowledge framework, and a new representation so that relativity become easier to be understood.
This video offers a mechanical approach for the first time to explain relativity.
It attempts to make relativity easier for the general public to understand.
The "theory of everything" was discovered
For physicists the final formula is the "formula of all formulas". Einstein, Heisenberg and many famous physicists have dreamed of this "equation for everything", in vain looking for it their whole lives. Modern science seeks for what holds together the world in the biggest and smallest parts. With the "theory of everything" it is possible to give a clear and unambiguous description of the observable phenomena in nature.
A World novelty
The "theory of everything" -a development of the Max Planck approaches- elegantly combines different phenomena of the microcosm and macrocosm in a plausible explanation. His knowledge of how to use a brief formula as physical "equation of everything" to explain the entire universe, the author wants to share in his ebook.
With the final formula the following fundamental constants and significant physical parameters were derived:
- Elementary charge
- Electron mass
- Proton mass
- Proton radius
- acceleration due to gravity
- Gravitational constant
- Fine structure constant
- Speed of Light
In this ebook, the author wants to share his knowledge of how to use a formula to explain the entire universe, in an easily understandable language. Based on equations derived from fundamental physical constants of nature that play a central role in physics, the author demonstrate that it is possible to explain the entire universe with a brief physical formula as equation of everything.
General relativity vs. quantum mechanics issues of foundations uv 1_oct2018SOCIEDAD JULIO GARAVITO
En este seminario, nos enfocaremos en los asuntos fundamentales relacionados con los pilares actuales de la física, y discutiremos los problemas para la creación de una teoría cuántica de la gravitación, es decir Teoría de Cuerdas, Super-Simetría o SUSY, o una Teoría del Todo.
My presentation regarding the existence of Black Hole - the most interesting and controversial topic in the field of Astronomy and Astrophysics! Explore through my presentation! Hope you will like it! Enjoy reading!
The paper proposes a model of a unitary quantum field theory where the particle is represented as a wave packet. The frequency dispersion equation is chosen so that the packet periodically appears and disappears without changing its form. The envelope of the process is identified with a conventional wave function. Equation of such a field is nonlinear and relativistically invariant. With proper adjustments, they are reduced to Dirac, Schroedinger and Hamilton-Jacobi equations. A number of new experimental effects are predicted both for high and low energies.
Dark matter modeled as a Bose Einstein gluon condensate with an energy density relative to baryonic energy density in agreement with observation (ArXiv: 1507.00460)
Atoms, quanta,and qubits: Atomism in quantum mechanics and informationVasil Penchev
The original conception of atomism suggests “atoms”, which cannot be divided more into composing parts. However, the name “atom” in physics is reserved for entities, which can be divided into electrons, protons, neutrons and other “elementary particles”, some of which are in turn compounded by other, “more elementary” ones. Instead of this, quantum mechanics is grounded on the actually indivisible quanta of action limited by the fundamental Planck constant. It resolves the problem of how both discrete and continuous (even smooth) to be described uniformly and invariantly in thus. Quantum mechanics can be interpreted in terms of quantum information. Qubit is the indivisible unit (“atom”) of quantum information. The imagery of atomism in modern physics moves from atoms of matter (or energy) via “atoms” (quanta) of action to “atoms” (qubits) of quantum information. This is a conceptual shift in the cognition of reality to terms of information, choice, and time.
we see as it is shown
i am universal secular god
we are far appart
your paradigm are mainly particular and my paradigm is universal
universal is just above global
so i guide this civilisation from capitalism to universalism
communism and islamism are not so dominating soc ec systems
i remarked that somehow all my paradigm is move from 3 to 4
like i still play poker
All those studies in quantum mechanics and the theory of quantum information reflect on the philosophy of space and its cognition
Space is the space of realizing choice
Space unlike Hilbert space is not able to represent the states before and after choice or their unification in information
However space unlike Hilbert space is:
The space of all our experience, and thus
The space of any possible empirical knowledge
Based on recent work on quantum gravity and the holographic principle I argue that, instead of thinking of the universe as a 'bubble out of nothing', we should think of space, time, and gravity as emerging 'out of information'.
An exciting qualitative review of some controversial topics of fundamental physics.
Black holes, a reality far from our minds!
Time travel, Science Fiction or Reality?
Question on the nature of the particle wave. de Broglie and other scientists struggled to find out but failed. Ended in the probability interpretation.
International Journal of Engineering Research and DevelopmentIJERD Editor
Electrical, Electronics and Computer Engineering,
Information Engineering and Technology,
Mechanical, Industrial and Manufacturing Engineering,
Automation and Mechatronics Engineering,
Material and Chemical Engineering,
Civil and Architecture Engineering,
Biotechnology and Bio Engineering,
Environmental Engineering,
Petroleum and Mining Engineering,
Marine and Agriculture engineering,
Aerospace Engineering.
WAVE-VISUALIZATION
1. Information gleaned from various sources. -“A BRIEF DESCRIPTION” - -Quantum physics is the physical theory that describes the behavior of matter, radiation and all their interactions views as both wave phenomena as either particle phenomena (wave-particle duality), unlike the classical Newtonian physics based on Isaac Newton's theories or, which sees for example the light just like wave and the electron just as a particle. ***In May 1926, Schrödinger proved that Heisenberg's matrix mechanics and his own wave mechanics made the same predictions about the properties and behaviour of the electron; mathematically, the two theories had an underlying common form. Yet the two men disagreed on the interpretation of their mutual theory. For instance, Heisenberg accepted the theoretical prediction of jumps of electrons between orbitals in an atom, but Schrödinger hoped that a theory based on continuous wave-like properties could avoid what he called (as paraphrased by Wilhelm Wien) "this nonsense about quantum jumps." The reconceived theory is formulated in various specially developed mathematical formalisms. In one of them, a mathematical function, the wave function, provides information about the probability amplitude of position, momentum, and other physical properties of a particle. Important applications of quantum mechanical theory include uperconducting magnets, light-emitting diodes and the laser, the transistor and semicoductors such as the microprocessor, medical and research imaging such as magnetic resonance imaging magnetic resonance and electron microscopy, and explanations for many biological and physical phenomena. Wave–particle duality is the fact that every elementary particle or quantic entity exhibits the properties of not only particles, but also waves. It addresses the inability of the classical concepts "particle" or "wave" to fully describe the behavior of quantum-scale objects. As Einstein wrote: "It seems as though we must use sometimes the one theory and sometimes the other, while at times we may use either. We are faced with a new kind of difficulty. We have two contradictory pictures of reality; separately neither of them fully explains the phenomena of light, but together they do". The wave view did not immediately displace the ray and particle view, but began to dominate scientific thinking about light in the mid 19th century, since it could explain polarization phenomena that the alternatives could not
The paper proposes a model of a unitary quantum field theory where the particle is represented as a wave packet. The frequency dispersion equation is chosen so that the packet periodically appears and disappears without changing its form. The envelope of the process is identified with a conventional wave function. Equation of such a field is nonlinear and relativistically invariant. With proper adjustments, they are reduced to Dirac, Schroedinger and Hamilton-Jacobi equations. A number of new experimental effects are predicted both for high and low energies.
Dark matter modeled as a Bose Einstein gluon condensate with an energy density relative to baryonic energy density in agreement with observation (ArXiv: 1507.00460)
Atoms, quanta,and qubits: Atomism in quantum mechanics and informationVasil Penchev
The original conception of atomism suggests “atoms”, which cannot be divided more into composing parts. However, the name “atom” in physics is reserved for entities, which can be divided into electrons, protons, neutrons and other “elementary particles”, some of which are in turn compounded by other, “more elementary” ones. Instead of this, quantum mechanics is grounded on the actually indivisible quanta of action limited by the fundamental Planck constant. It resolves the problem of how both discrete and continuous (even smooth) to be described uniformly and invariantly in thus. Quantum mechanics can be interpreted in terms of quantum information. Qubit is the indivisible unit (“atom”) of quantum information. The imagery of atomism in modern physics moves from atoms of matter (or energy) via “atoms” (quanta) of action to “atoms” (qubits) of quantum information. This is a conceptual shift in the cognition of reality to terms of information, choice, and time.
we see as it is shown
i am universal secular god
we are far appart
your paradigm are mainly particular and my paradigm is universal
universal is just above global
so i guide this civilisation from capitalism to universalism
communism and islamism are not so dominating soc ec systems
i remarked that somehow all my paradigm is move from 3 to 4
like i still play poker
All those studies in quantum mechanics and the theory of quantum information reflect on the philosophy of space and its cognition
Space is the space of realizing choice
Space unlike Hilbert space is not able to represent the states before and after choice or their unification in information
However space unlike Hilbert space is:
The space of all our experience, and thus
The space of any possible empirical knowledge
Based on recent work on quantum gravity and the holographic principle I argue that, instead of thinking of the universe as a 'bubble out of nothing', we should think of space, time, and gravity as emerging 'out of information'.
An exciting qualitative review of some controversial topics of fundamental physics.
Black holes, a reality far from our minds!
Time travel, Science Fiction or Reality?
Question on the nature of the particle wave. de Broglie and other scientists struggled to find out but failed. Ended in the probability interpretation.
International Journal of Engineering Research and DevelopmentIJERD Editor
Electrical, Electronics and Computer Engineering,
Information Engineering and Technology,
Mechanical, Industrial and Manufacturing Engineering,
Automation and Mechatronics Engineering,
Material and Chemical Engineering,
Civil and Architecture Engineering,
Biotechnology and Bio Engineering,
Environmental Engineering,
Petroleum and Mining Engineering,
Marine and Agriculture engineering,
Aerospace Engineering.
WAVE-VISUALIZATION
1. Information gleaned from various sources. -“A BRIEF DESCRIPTION” - -Quantum physics is the physical theory that describes the behavior of matter, radiation and all their interactions views as both wave phenomena as either particle phenomena (wave-particle duality), unlike the classical Newtonian physics based on Isaac Newton's theories or, which sees for example the light just like wave and the electron just as a particle. ***In May 1926, Schrödinger proved that Heisenberg's matrix mechanics and his own wave mechanics made the same predictions about the properties and behaviour of the electron; mathematically, the two theories had an underlying common form. Yet the two men disagreed on the interpretation of their mutual theory. For instance, Heisenberg accepted the theoretical prediction of jumps of electrons between orbitals in an atom, but Schrödinger hoped that a theory based on continuous wave-like properties could avoid what he called (as paraphrased by Wilhelm Wien) "this nonsense about quantum jumps." The reconceived theory is formulated in various specially developed mathematical formalisms. In one of them, a mathematical function, the wave function, provides information about the probability amplitude of position, momentum, and other physical properties of a particle. Important applications of quantum mechanical theory include uperconducting magnets, light-emitting diodes and the laser, the transistor and semicoductors such as the microprocessor, medical and research imaging such as magnetic resonance imaging magnetic resonance and electron microscopy, and explanations for many biological and physical phenomena. Wave–particle duality is the fact that every elementary particle or quantic entity exhibits the properties of not only particles, but also waves. It addresses the inability of the classical concepts "particle" or "wave" to fully describe the behavior of quantum-scale objects. As Einstein wrote: "It seems as though we must use sometimes the one theory and sometimes the other, while at times we may use either. We are faced with a new kind of difficulty. We have two contradictory pictures of reality; separately neither of them fully explains the phenomena of light, but together they do". The wave view did not immediately displace the ray and particle view, but began to dominate scientific thinking about light in the mid 19th century, since it could explain polarization phenomena that the alternatives could not
A run through of the basic principles of quantum mechanics, first principles in Philosophy, deriving mathematical Platonism and informational monism, and recognizing that quantum gravity necessitates informational monism while accommodating mathematical Platonism.
Relativity and Quantum Mechanics Are Not "Incompatible"John47Wind
Many scientific journals, books, magazines and science web sites state that since Einstein’s theory of gravity doesn’t “fit” into the quantum theory of forces, a new quantum theory of gravity must be found. This essay explodes the prevailing scientific myth that relativity and quantum mechanics are somehow incompatible. The simple fact of the matter is that gravity is not a force at all, so trying to make it “fit” into quantum theory is impossible. This essay demonstrates that relativity and quantum physics are indeed different, but it’s simply a matter of scale. In fact they are perfect reflections of each other.
This article delves into the realms of quantum physics and quantum computing, designed with beginners in mind. If you're entirely new to the world of quantum physics and quantum computing, this resource offers an ideal opportunity to grasp the inner workings of these subjects.
While my intention was to provide comprehensive coverage of a wide range of topics, I found it challenging to delve deeply into each one. As a result, I've only touched upon a few key subjects in this article. This marks my inaugural attempt at writing an article, so I acknowledge the possibility of errors. Nonetheless, the experience of embarking on this writing journey has been quite rewarding.
The Hidden Secrets of General Relativity RevealedJohn47Wind
It has been more than 100 years since Einstein’s General Theory of Relativity was published. It is one of the most successful theories created by the human brain, surviving every test that attempted to falsify it. However, the implications of general relativity are incredibly deep and go far beyond the humdrum analyses found in most physics textbooks. Recent discoveries have shown that general relativity and quantum mechanics are based on the common principle that our universe isn’t just relativistic but is radically so, and objective reality is a mirage generated in the mind of the observer. Temporal asymmetry, or the curvature of time, is the key to understanding this. This essay reveals a few of the hidden secrets of general relativity, which I expect will offend materialists but am hopeful will delight idealists.
On request from a friend - a journey that starts from Young's double split experiment and ends up with fundamental questions about the nature of reality and the essence of science...
Abstract: Dr. David Joseph Bohm an American scientist who theorized quantum mechanics in the most ordinary and understandable way, which is somewhat referred to as the “Pilot Wave-model”. Also he prophesized in neuropsychology, and gave the Holonomic model of brain affecting our view of the quantum mechanics. His theories suggest that the phenomenon of “NON LOCALITY” or quantum entanglement is due to the famous “frame dragging” phenomenon predicted by Sir. Albert Einstein’s theory of relativity.
Bohm’s theory also suggests that time doesn’t exist in the way we think it does as stated by “THE BIG CRUNCH” theory. According to it time exists due to the interacting frequencies of the waves due to particle vibrations in space and that the universe never began.
In this paper existence of quantum entanglement is used to question the degree of correctness of the Space-time fabric theory.
CARLO MARIA ROSA CROCEStatus is online
CARLO MARIA ROSA CROCE
-Quantum physics is the physical theory that describes the behavior of matter,
111 articles
Antonin is a founder of the VII photo agency.
No alt text provided for this image
Antonin is a founder of the VII photo agency which is an international photo agency which is owned and controlled by only the members. It was launched at the Visa pour l'image Festival France in the town of Perpignan in September 2001. This was one of his own great achievements but eventually, he was suspended from the VII Photo Agency after sexual harassment allegations were made upon him despite he continued to deny those.
More on his personal life, he was born in 1947 in a town called Litomerice in Czechoslovakia and eventually pursued his studies in photography in Netherlands where he got his BFA in Photography at the Gerrit Rietveld Academie in Amsterdam.
Antonin Kratochvil specializes mostly in documenting the world's hot topic or showing how a refugee life is by depicting those realities in his pictures. He would provide his own personal experience towards those events together with those affected in it in order to provide a true aspect of the reality we are all living in but decide to ignore it sometimes.
" He took pictures in the Mongolia's street children for the magazine published by the Museum of Natural History to a portrait session with David Bowie for Detour, from covering the war in Iraq for Fortune Magazine to shooting Deborah Harry for a national advertising campaign for the American Civil Liberties Union, Kratochvil's ability to see through and into his subjects and show immutable truth has made his pictures not facsimiles but uncensored visions." - From Antonin's website.
During his years of being a professional photographer, he had a widespread of publications examining various topics and interests as from the description above taken from Antonin's website. This sum up a lot of his jobs and only shows that he is versatile to a lot of topics of interests and also he is keen to try new ways to target his audience. We can see from one side that he is willing to raise awareness upon topics that we often ignore or forget in our busy society. However, he also merges into the world of celebrities and fame by depicting portraits of those icons of the industry while at the same time giving his art more value in terms of audience. This can be seen as a strategy for himself in order to raise awareness for his other art as people will still keep up with his work either through celebrities or through his pictures about real world issues.
Some of his pictures can be shown as below:
Picture credits: Antonin Kratochvil
This is a portrait of David Bowie taken in New York in 1997 by Kratochvil.
Picture credits: Antonin Kratochvil
A picture at the Prague gallery is one of his art work of taking pictures in the moment.
In 2002, we won the World Press Photo Awards in the cat
Human reproduction planning is the practice of intentionally controlling the rate of growth of a human population. Historically, human population planning has been implemented with the goal of increasing the rate of human population growth. However, in the period from the 1950s to the 1980s, concerns about global population growth and its effects on poverty, environmental degradation and political stability led to efforts to reduce human population growth rates. More recently, some countries, such as China, Iran, and Spain, have begun efforts to increase their birth rates once again. While population planning can involve measures that improve people's lives by giving them greater control of their reproduction, a few programs, most notably the Chinese government's "one-child policy and two-child policy", have resorted to coercive measures.
George Soros, Barack Obama and Hillary Clinton orchestrated a coup in the Vatican to overthrow the conservative Pope Benedict and replace him with radical leftist Pope Francis, according to a group of Catholic leaders citing evidence from various sources including WikiLeaks emails.
A VERY IMPORTANT PREMISE
GEORGE SOROS
Soros has long planned to buy Italy after having economically, culturally and artistically reduced-and-downgraded it.
George Soros, Barack Obama and Hillary Clinton orchestrated a coup in the Vatican to overthrow the conservative Pope Benedict and replace him with radical leftist Pope Francis, according to a group of Catholic leaders citing evidence from various sources including WikiLeaks emails.
A VERY IMPORTANT PREMISE
GEORGE SOROS
Soros has long planned to buy Italy after having economically, culturally and artistically reduced-and-downgraded it.
-CENTRAL AMERICA-
>IN THE PERIOD BETWEEN 2002-2003, I WORKED (...) FOR A YEAR AND A HALF IN CENTRAL AMERICA (MEXICO-CUBA-GUATEMALA-BELIZE-HONDURAS-NICARAGUA-EL SALVADOR-COSTA RICA-PANAMA) ALSO AND ESPECIALLY WITH THE CONTACTS BY ANTONIN KRATOCHVIL.
> IN THAT PERIOD , I RECEIVED A VERY GOOD JOB OFFER FROM THE UNITED STATES GOVERNMENT-.
>AS AN ANALYST-STRATEGIC-OPERATIONAL ON THE TERRITORY, IN THE FIELD ,”IN DA ZONE” I "FOUND" FULLY PREPARED IN A NATURAL WAY.
-AFTERWARDS I WANTED/HAD TO "ABANDON THE TEAM" TO GO TO END ***-"THE NYC DANCE KABALLAH QUANTUM PROJECT"***
-I MUST SAY IT WAS A GREAT EXPERIENCE, "MADE" WITH HIGHLY TRAINED PROFESSIONALS, WITH VERY SPECIAL TALENTS AND SKILLS THEY HAVE TAUGHT ME.
MOTH812
C.M.R.
No alt text provided for this image
Chatty Kathy - UNC Bootcamp Final Project Presentation - Final Version - 5.23...John Andrews
SlideShare Description for "Chatty Kathy - UNC Bootcamp Final Project Presentation"
Title: Chatty Kathy: Enhancing Physical Activity Among Older Adults
Description:
Discover how Chatty Kathy, an innovative project developed at the UNC Bootcamp, aims to tackle the challenge of low physical activity among older adults. Our AI-driven solution uses peer interaction to boost and sustain exercise levels, significantly improving health outcomes. This presentation covers our problem statement, the rationale behind Chatty Kathy, synthetic data and persona creation, model performance metrics, a visual demonstration of the project, and potential future developments. Join us for an insightful Q&A session to explore the potential of this groundbreaking project.
Project Team: Jay Requarth, Jana Avery, John Andrews, Dr. Dick Davis II, Nee Buntoum, Nam Yeongjin & Mat Nicholas
Levelwise PageRank with Loop-Based Dead End Handling Strategy : SHORT REPORT ...Subhajit Sahu
Abstract — Levelwise PageRank is an alternative method of PageRank computation which decomposes the input graph into a directed acyclic block-graph of strongly connected components, and processes them in topological order, one level at a time. This enables calculation for ranks in a distributed fashion without per-iteration communication, unlike the standard method where all vertices are processed in each iteration. It however comes with a precondition of the absence of dead ends in the input graph. Here, the native non-distributed performance of Levelwise PageRank was compared against Monolithic PageRank on a CPU as well as a GPU. To ensure a fair comparison, Monolithic PageRank was also performed on a graph where vertices were split by components. Results indicate that Levelwise PageRank is about as fast as Monolithic PageRank on the CPU, but quite a bit slower on the GPU. Slowdown on the GPU is likely caused by a large submission of small workloads, and expected to be non-issue when the computation is performed on massive graphs.
06-04-2024 - NYC Tech Week - Discussion on Vector Databases, Unstructured Data and AI
Round table discussion of vector databases, unstructured data, ai, big data, real-time, robots and Milvus.
A lively discussion with NJ Gen AI Meetup Lead, Prasad and Procure.FYI's Co-Found
Quantitative Data AnalysisReliability Analysis (Cronbach Alpha) Common Method...2023240532
Quantitative data Analysis
Overview
Reliability Analysis (Cronbach Alpha)
Common Method Bias (Harman Single Factor Test)
Frequency Analysis (Demographic)
Descriptive Analysis
Quantitative Data AnalysisReliability Analysis (Cronbach Alpha) Common Method...
A new technology for a new era
1. -"A NEW TECHNOLOGY FOR A NEW ERA"-
https://www.linkedin.com/pulse/super-position-momentum-
space-wavefunction-carlo-m-rosa?trk=pulse_spock-articles
https://www.linkedin.com/pulse/quantum-physics-carlo-m-
rosa?trk=mp-reader-card
https://www.linkedin.com/pulse/my-familys-military-order-
carlo-m-rosa-?trk=pulse_spock-articles
http://www.slideshare.net/CARLOMROSA/aise-63855245
http://www.slideshare.net/CARLOMROSA/my-summary-
written-in-freedom-x-x-62961849
http://www.slideshare.net/CARLOMROSA/central-america-
61439572
2. Information gleaned from various sources.
-“A BRIEF DESCRIPTION” -
-Quantum physics is the physical theory that describes the behavior of
matter, radiation and all their interactions views as both wave
phenomena as either particle phenomena (wave-particle duality), unlike
the classical Newtonian physics based on Isaac Newton's theories
or, which sees for example the light just like wave and the electron just as
a particle.
3. ***In May 1926, Schrödinger proved that Heisenberg's matrix
mechanics and his ownwave mechanics made the same predictions about
the properties and behaviour of the electron; mathematically, the two
theories had an underlying common form. Yet the two men disagreed on
the interpretation of their mutual theory. For instance, Heisenberg
accepted the theoretical prediction of jumps of electrons between orbitals
in an atom, but Schrödinger hoped that a theory based on continuous
wave-like properties could avoid what he called (as paraphrased
by Wilhelm Wien) "this nonsense about quantum jumps."
The reconceived theory is formulated in various specially developed
mathematical formalisms. In one of them, a mathematical function,
the wave function, provides information about the probability amplitude
of position, momentum, and other physical properties of a particle.
Important applications of quantum mechanical theory
include uperconducting magnets, light-emitting diodes and the laser, the
transistor and semicoductors such as the microprocessor, medical and
research imaging such as magnetic resonance imaging magnetic
resonance and electron microscopy, and explanations for many biological
and physical phenomena.
Wave–particle duality is the fact that every elementary particle or
quantic entity exhibits the properties of not only particles, but also waves.
It addresses the inability of the classical concepts "particle" or "wave" to
fully describe the behavior of quantum-scale objects.
As Einstein wrote: "It seems as though we must use sometimes the one
theory and sometimes the other, while at times we may use either. We are
faced with a new kind of difficulty.
We have two contradictory pictures of reality; separately neither of them
fully explains the phenomena of light, but together they do".
The wave view did not immediately displace the ray and particle view,
but began to dominate scientific thinking about light in the mid 19th
4. century, since it could explain polarization phenomena that the
alternatives could not.
Visualization
There are two ways to visualize the wave-particle behaviour: by the
"standard model" and by the Broglie–Bohm model, where no duality is
perceived.
The more localized the position-space wavefunction, the more likely the
particle is to be found with the position coordinates in that region, and
correspondingly the momentum-space wavefunction is less localized so
the possible momentum components the particle could have are more
widespread.
Conversely the more localized the momentum-space wavefunction, the
more likely the particle is to be found with those values of momentum
components in that region, and correspondingly the less localized the
position-space wavefunction, so the position coordinates the particle
could occupy are more widespread.
When we do ,we form a the "superposition" of the individual matter
waves,these superpositions turn out to have a central role in the theory of
matter waves and in quantum theory as a whole.
The distances between adjacent peaks and troughs differ in different
parts of the wave.
Wave–particle duality is an ongoing conundrum in modern physics.
Most physicists accept wave-particle duality as the best explanation for a
broad range of observed phenomena; however, it is not without
controversy. Alternative views are not generally accepted by mainstream
physics, but serve as a basis for valuable discussion within the
community.
When first discovered, particle diffraction was a source of great puzzlement.
Are"particles" really "waves?" .
Today it is possible to detect the arrival of individual electrons, and to see the diffraction
pattern emerge as a statistical pattern made up of many small spots (Tonomura et al.,
1989). Evidently, quantum particles are indeed particles, but whose behaviour is very
different from classical physics would have us to expect.
5. It has been claimed that the Afshar experiment (2007) shows that it is
possible to simultaneously observe both wave and particle properties of
photons. This claim is, however, rejected by other scientists.
Wave–particle duality is exploited in electron microscopy, where the
small wavelengths associated with the electron can be used to view
objects much smaller than what is visible using visible light.
The nature of consciousness remains deeply mysterious and profoundly
important, with existential, medical and spiritual implication.
We know what it is like to be conscious – to have awareness, a conscious
‘mind’, but who, or what, are ‘we’ who know such things?.
How is the subjective nature of phenomenal experience – our ‘inner life’ -
to be explained in scientific terms? What consciousness actually is, and
how it comes about remain unknown. The general assumption in modern
science and philosophy - the ‘standard model’ - is that consciousness
emerges from complex computation among brain neurons, computation
whose currency is seen as neuronal firings (‘spikes’) and synaptic
transmissions, equated with binary ‘bits’ in digital computing.
Consciousness is presumed to ‘emerge’ from complex neuronal
computation, and to have arisen during biological evolution as an
adaptation of living systems, extrinsic to the makeup of the universe. On
the other hand, spiritual and contemplative traditions, and some
scientists and philosophers consider consciousness to be intrinsic, ‘woven
into the fabric of the universe’.
In these views, conscious precursors and Platonic forms preceded biology,
existing all along in the fine scale structure of reality.
6. -”A CONCISE EXPLANATION”-
*Postil.
As always in this brief digression I will use words and concepts (already)
been used “from others about my work”.
-” THE SUPER POSITION -MOMENTUM- SPACE
WAVEFUNCTION”-
°I am not obviously a scientist but ( almost “personally” unexpected) I was
told and explained by authoritative international characters, “Absolute
Enlightenment” in the art and photography “field” that, through an
“unique and innovative use” of The Analog Photocamera as
a“filter between me and the reality”, I managed to get into the
metaphysics.
***I was also told that not many people in the world are able to
perform this exercise with noticeable and undeniable results .
7. §“Photo manent ,verba volant”.
>Let me just say with great humility that the “feeling” (although at the
time quite unconscious) boosting “my own climax TO FIND THE SUPER
POSITION -MOMENTUM- SPACE WAVEFUNCTION” , It is a
wonderful feeling , both physically than mentally, also having
regard to the concrete results.
-“These are just words ... let the images communicate the
concept”-.
§In his manuscripts on painting, Leonardo wrote:
“The air is full of an infinite number of radiant pyramids caused by the
objects located in it. These pyramids intersect and interweave without
interfering with each other.…The semblance of a body is carried by them
as a whole into all parts of the air and each smallest part receives into itself
the image that has been caused.”
-Nowadays, scientists and engineers prefer to think in terms of light
rays rather than Leonardo’s more poetic “radiant pyramids.” But light-
field photography is based precisely on his idea that the light arriving at
any point—what he called the “smallest part” of the air—carries all the
information necessary to reproduce any view that can be had from that
position.
An ordinary digital camera do that?.
Not at all.
-In a conventional digital camera, the light rays hitting each point on the
image sensor combine. The sensor records the total intensity of the light
rays landing on each point, or photosite, but in the process loses directional
information about where the different rays came from.
8. >So the best like a typical analog camera can provide is the familiar
two-dimensional photograph, which has a fixed point of view and a focus
determined entirely by how the lens was set when the photo was snapped.
>Light-field photography is far more ambitious.
***Instead of merely recording the sum of all the light rays falling on each
photosite, a light-field camera aims to measure the intensity and direction
of every incoming ray.
§With that information, you can generate not just one but every possible
image of whatever is within the camera’s field of view at that moment:
For example, a portrait photographer oftenadjusts the lens of the camera
so that the subject’s face is in focus, leaving what’s behind purposefully
blurry.
-Others might want to blur the face and make a tree in the background
razor sharp.With light-field photography, you can attain either effectfrom
the very same snapshot.
***The information a light-field camera records is,
mathematically speaking, part of something that optics
specialists call the plenoptic function .
>This function describes the totality of light rays filling a given region of
space at any one moment. It’s a function of five dimensions, because you
need three
(x,y, andz) to specify the position of eachvantage point, plus two more
(often denotedθand(φ) for the angle of every incoming ray.
9. -When measuring light in a region that’s free of any obstructions, you have
to keeptrack of only four dimensions rather than five.
>Think about it:
If you know that a ray isn’t blocked, it’s simple to follow where it goes.
-Record where it hits one plane (x and y) and the angle at which it hits
(θ an φ) and you can work out where it came from and where it’s headed.
The same is true for any other ray hitting that plane at any angle. So with
just the knowledge of the light crossing a single plane, you can calculate the
position and direction of the rays filling the surrounding region, so long as
there are no obstructions present.
§This four-dimensional function is called the light field (hence
the term light-field).