Post a video usgin 30 seconds of your best humming. (be as syncronzone to humming as possible) Yours video also has to be 30 seconds (video usgin 30 second of your best singing). (be as syncronzone to singi ng as possible)Now make a video explaining to your friend how this could be used to help Africa by either singing or humming. You have five minutes and 40 seconds (if using the scrore centric overlays that mean the you need to be very close to the mark).Good luck! 🙂 1 bonus point if YOu can mention me in your video and have the video centered perfectly with the music. And send it to:
e-mail: World_Science_Newsletter@ieee.org
fax: +1-856-505-9020
Leave it to us to check the text and proclaim the winner.
Your article should be something like what is published in the World_Science_Newsletter.
The texts will be published in the World_Science_Newsletter.
The reward winners will receive UnderWaves_Experiments poster and book.
FONTS COLLECTION OF THE WORLD SCIENTISTS
==> CURRENT ISSUE – E106
Fellow Scientists: UnderWaves Theoretical Framework and Experiments in Wave Motion Control for Energy Production
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THE UNDERWAVES HANDBOOK VOLUME II
STATISTERS, INDOCTRINATED OBJECTS AND COLOR CHARTS
Statisters: Statistical Mechanics play according Statistical Mechanics rules and quantum uncertainty The role of statistics for building the physical world in quantum mechanics
INDOCTRINATED OBJECTS: Physical object is a combination of control mechanisms and the inducted objects The inducer acts from the inducing apparatus. The inductee calculates the result of the combination of two systems assuming the two objects are independent
Sample calculation: black objects may depict inductor and inducted object. Mendeleyev’s periodic scale as an example of indoctrinating objects as physical building blocks Reverse entropy.
Color charts that had been created by various cultures encoded inducted objects Although color charts differ in structure, there are basic patterns conserved across cultures. One or a few colors had specific meanings in various charts and were dominant in the chart.
Sample calculation: Christian Symbolism.
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UnderWaves Trilogy Excerpts
UNDERWAVES: UnderWaves_Theory_Excerpt
Two-Wave Induced Interaction of Electromagnetic Waves
Application: Light and Dark Energy
ALPHA CENTAURI.
Interaction of Two-Wave Fields as a Two-Body Problem
Application: Quantum State Describes Both Gravity
and…
CERN PARTICLE COMPUTERS – Human Personality and Consciousness Emulation
Human Mind + Quantum Computer = UNDERWAVES ONTOLOGY
Interaction of Two Fields as a Two-Body Problem Application: Quantum State Describes Both Gravity and…
INTERDISCIPLINARY UNDERWAVES INTERFACES TO UNDERSTAND EARTH SYSTEMS
Dražen Prelec, Radovan Kartalić, Ivona Šćitar, Predrag Zapornić,
Jian Xiao, Miroslav Zikmund
11:30-12:00
Syracuse University
Be certain to visit webpage for article and other relevant articles.
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CERN PARTICLE COMPUTERS – Human Personality and Consciousness Emulation
Human Mind + Quantum Computer = UNDERWAVES ONTOLOGY
UnderWaves Three-Wave-Mixing and Self-Interfering Potential of the Quantum State
Interaction of 3 Fields on 3 Histories
Phase conjugation of Space-Volume-Time or the Human Histories?
Self-regenerating and self-reordering energy helical concepts of Matter-Matter-Time-Time.
Time is a complex self_similar composite of phase conjugates that is emitting signals into space and…
Phase-Conjugate Signal Signals Control Wave-Particles
From Radio Waves over Fast_Light to particles containing potentially inverted Lorentz transformations.
Polish Science Page for more articles about phase conjugate systems on the basis of this approach.
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UNDERWAVES Theoretical Framework
Human Mind + Quantum Computer = UNDERWAVES ONTOLOGY
UNDERWAVES Theoretical Framework & UNDERWAVES Experimental Results
This framework brings together quantum physics, relativity, particle physics, statistical mechanics and epistemology into a coherent worldview. It demonstrates that both photons and nucleons of the vacuum space have an identity, phases, and an anti-entropic role.
This results in a highly philosophic ontology because all quantitative aspects of ontology are quantified and can be connected via space-time structure of the interface between the two phenomena.
This framework brings together Quantum Physics and Relativity in Physical Reality and not only their predictions (Copenhagen interpretation by Niels Bohr), but their faces of a much more complex physical reality.
In this realization of the reality behind empirical measurement, space-time structure has its essential role, as do identity of the building blocks and their phases. Moreover, this structure can be perceived as meaningful as information-carrying entity. Thus, it furthers epistemological understanding of reality while it extends our understanding of quantum physics. This also advances sociological aspects of quantum reality because societies are building blocks which are leading to the results of quantum physics experiments. However, quantum physics entities can view this structure in hidden form. The task consists of correlating these three views to be the basic components of the UNDERWAVES ontology.
All components of ontology are correlated in such a way that the UNDERWAVES theorem and its underlying ontology are treated as the most general meaning of reality. OUTLINE
Empirical Interpretation of Relativity and Quantum Physics Realism Theoretical Interpretation by Multitude of UNDERWAVES Components Multitude of UNDERWAVES Forces: Generalized Particles and Probes The Multitude of Consciousness Law-levels and Interfaces Multitude of UNDERWAVES Interpretations: FROM Fundamental Forces to Earth Systems from Micro to Macro Body and Mind Interactions and INTERCOS – the object of microsemic physics Emulgatory Agents: DATA The UNDERWAVES for Science Global Science for the UNDERWAVES Technology for the UNDERWAVES Consciousness for the UNDERWAVES UNIFICATION: Around Planetary Transformations Nature, Art, Consciousness and Love Epistemology on a New Level A New Spiritual and Societal Revolution A Final Philosophy of every person
Unified Ocean Dictionary of Quantum Physics
BASIC UNDERWAVES RELATIONSHIPS
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