Quantum physics is the study of energy and matter at the most fundamental level.
Read more: https://medium.com/@mark-lyttleton/exploring-the-overlap-between-pranic-healing-and-quantum-physics-0b5f7899c9cc
This document provides an overview of the key concepts in the unit of physical world science. It defines science and physics, explaining that physics is the study of nature and natural phenomena. It describes the scientific method and different eras in physics. Additionally, it outlines the fundamental forces in nature, scope of physics, relationships between physics and other fields, and conservation laws that govern physical systems.
This document provides an overview of the key concepts in physics. It discusses what science and physics are, the scientific method, the different branches of classical and modern physics, the scope and excitement of physics experiments, how physics relates to other fields like technology and society, the fundamental forces in nature like gravitational and electromagnetic forces, and conservation laws in physics.
History and Development of Scientific Research Makhmudov .U M22-09 NGJ Sobiro...UmrzoqMakhmudov
Scientific research has contributed greatly to expanding human knowledge and solving complex problems over time. Early civilizations like ancient Greece, China, and Egypt demonstrated curiosity about the natural world and relied on empirical observation, though approaches varied. Key figures like Thales, Pythagoras, Aristotle, Copernicus, Galileo, Kepler, and Newton made seminal contributions that advanced scientific disciplines through philosophical inquiry and formulation of theories like heliocentrism and the laws of motion. The Scientific Revolution challenged prior views, while the Age of Enlightenment fostered adoption of the scientific method and dissemination of knowledge. Overall, scientific research has profoundly shaped understanding across many domains.
Infinite Energy, Space Travel... Would this be the greatest Discovery of our ...GLOBAL HEAVYLIFT HOLDINGS
"This might be the greatest discovery of our time. The Holy Grail of almost infinite energy production, and propulsion through the universe using the fabric of nature. I am telling this story as it was told to me.
In 2013, an international incident was created by the intent of a government to violate a treaty to share scientific information with another. The scientists and their work had to be extracted before the scientists were assassinated and their work used as strategic advantage to who knows what purposes.
Just a couple of hours more and the scientists would have been killed and the discovery would be in the hands of only one country, and may not for the most noble of purposes." - Francisco Lopez
This document provides an overview of the key concepts in the unit of physical world science. It defines science and physics, explaining that physics is the study of nature and natural phenomena. It describes the scientific method and different eras in physics. Additionally, it outlines the fundamental forces in nature, scope of physics, relationships between physics and other fields, and conservation laws that govern physical systems.
This document provides an overview of the key concepts in physics. It discusses what science and physics are, the scientific method, the different branches of classical and modern physics, the scope and excitement of physics experiments, how physics relates to other fields like technology and society, the fundamental forces in nature like gravitational and electromagnetic forces, and conservation laws in physics.
History and Development of Scientific Research Makhmudov .U M22-09 NGJ Sobiro...UmrzoqMakhmudov
Scientific research has contributed greatly to expanding human knowledge and solving complex problems over time. Early civilizations like ancient Greece, China, and Egypt demonstrated curiosity about the natural world and relied on empirical observation, though approaches varied. Key figures like Thales, Pythagoras, Aristotle, Copernicus, Galileo, Kepler, and Newton made seminal contributions that advanced scientific disciplines through philosophical inquiry and formulation of theories like heliocentrism and the laws of motion. The Scientific Revolution challenged prior views, while the Age of Enlightenment fostered adoption of the scientific method and dissemination of knowledge. Overall, scientific research has profoundly shaped understanding across many domains.
Infinite Energy, Space Travel... Would this be the greatest Discovery of our ...GLOBAL HEAVYLIFT HOLDINGS
"This might be the greatest discovery of our time. The Holy Grail of almost infinite energy production, and propulsion through the universe using the fabric of nature. I am telling this story as it was told to me.
In 2013, an international incident was created by the intent of a government to violate a treaty to share scientific information with another. The scientists and their work had to be extracted before the scientists were assassinated and their work used as strategic advantage to who knows what purposes.
Just a couple of hours more and the scientists would have been killed and the discovery would be in the hands of only one country, and may not for the most noble of purposes." - Francisco Lopez
Infinite Energy, Space Travel... Would this be the greatest Discovery of our ...GLOBAL HEAVYLIFT HOLDINGS
"This might be the greatest discovery of our time. The Holy Grail of almost infinite energy production, and propulsion through the universe using the fabric of nature. I am telling this story as it was told to me.
In 2013, an international incident was created by the intent of a government to violate a treaty to share scientific information with another. The scientists and their work had to be extracted before the scientists were assassinated and their work used as strategic advantage to who knows what purposes.
Just a couple of hours more and the scientists would have been killed and the discovery would be in the hands of only one country, and may not for the most noble of purposes." - Francisco Lopez
The document discusses the history and nature of theories of light. It describes early theories including Newton's particle theory and Huygens' wave theory. It then explains Maxwell's electromagnetic theory and Einstein's quantum theory of light, which unified wave and particle properties. The development of theories has been driven by experiments and mathematics. Today's accepted theory is the quantum theory of light, which has revolutionized understanding and technology development like lasers and optical devices.
Research done by Mahendra Kumar Trivedi - Effect of Superconsciousness Extern...john henrry
Research on Trivedi Effect - The present paper is the first scientific report that deals with the effect of consciousness energy which Mahendra Trivedi uniquely communicates through thought intervention by sending an information signal that transforms carbon allotropes to read more visit http://www.academicroom.com/article/effect-superconsciousness-external-energy-atomic-crystalline-and-powder-characterisitics-%E2%80%9Ccarbon-allotrope-powders%E2%80%9D
Research done by Mahendra Kumar Trivedi - Effect of Superconsciousness Extern...Abby Keif
Research on Trivedi Effect - The present paper is the first scientific report that deals with the effect of consciousness energy which Mahendra Trivedi uniquely communicates through thought intervention by sending an information signal that transforms carbon allotropes. Visit http://works.bepress.com/mahendra_trivedi/6/ to read paper.
SCIENCE and TECHNOLOGY XXI: New Physical Science XXIAzamat Abdoullaev
Physics 1.0 Physics 2.0 Physics 3.0 … Physics X.0
the First Principles in NATURE:
Force-Interactions, Super symmetry Force, or Proto Force Convertibility OF FORCES Conservation OF FORCES
Reversibility OF FORCES
UNITY OF FORCES, QUANTUM GRAVITY
Dark Energy Universe
All Existence is Relative, All Nature is Reversible, All Forces are coming from one Proto Force
Read i-book: SCIENCE and TECHNOLOGY 21, New PHYSICA, to completely change your standard conception of PHYSICAL REALITY
On the First Principles and Laws in Physical Science: Force-Relations, Convertibility, and Reversibility
The Nobel Prize in Physics has been awarded 109 times to 201 Nobel Laureates between 1901 and 2015, according to the Nobel Foundation. The key achievements lie in the serendipitous and intuitive and ingenious discovering of empirical physical laws and effects, as the Einstein’s law of photoelectric effect, the Compton effect, the Cherenkov effect, the Mössbauer effect, the Hall effects and others, enriched with new discoveries of subatomic entities, symmetry principles, conservation laws and unified force fields theories.
The formulated Principle of Process Reversal and its Convertibility Laws enable the description of diverse physical processes and phenomena and the prediction of actions of physical forces and effects in the systematic and consistent ways without having to consider the details of the courses of physical processes and systems.
It is shown that the Principle of Process Reversal combines all the key attribute of universal laws of nature: asserts the interdependence between varying quantities of physical properties; states that physical events occur in an invariant order; supports cause and effect relationships, and states a constant regularity in the relations or order of physical phenomena in the world, embracing the empirical regularities of numerous physical effects.
Above everything, the Reversibility Law implies that if there is some physical effect in nature, there must be its inverse, converse or reversed action, otherwise it is not a real effect. Or, if there is the Doppler effect, there must be the Inverse Doppler effect by LAW, the Law of Reversibility.
The document discusses three sciences: biology, physics, and chemistry. Biology is defined as the study of life, including structure, function, growth, and evolution of organisms. Physics is the study of matter, energy, and their interaction in nature. Chemistry is the study of matter and its composition, structure, and properties during chemical reactions. The author expresses their interest in science and how these fields can help improve lifestyle and led to technological advances.
The document discusses three sciences: biology, physics, and chemistry. Biology is defined as the study of life, including structure, function, growth, and evolution of organisms. Physics is the study of matter, energy, and their interaction, which has led to advances like television and computers. Chemistry is the study of matter and its composition, behavior, and changes during chemical reactions. It examines atoms, molecules, and their energy and entropy during chemical processes.
The document discusses three sciences: biology, physics, and chemistry. Biology is defined as the study of life, including cell theory and evolution. Physics is the study of matter and its motion through space and time, which has led to advances like television and computers. Chemistry is concerned with the composition, structure, and properties of matter and the changes during chemical reactions. It incorporates concepts of energy and entropy in chemical processes.
This document provides definitions and descriptions of key concepts in earth and life science. It defines science as using systematic methods like observation and experimentation to study the natural world. It then discusses the universe and branches of science like space, time, energy, matter, and dark matter. Space is described as the three-dimensional extent in which objects have position and direction. Time is the progress of existence from past to future. Energy must be transferred to objects to cause change, and is conserved. Matter occupies space and has mass. Dark matter is estimated to make up 85% of the universe's matter.
Around the turn of the 20th century, physicists discovered subatomic particles like electrons and protons. However, classical physics could not explain phenomena at the atomic scale. This led to the development of quantum physics, one of the most important intellectual movements. Quantum physics explains how computers and the internet work and allows scientists to predict particle behavior. The book discusses how quantum physics has limitless applications but the underlying reasons are less understood. It addresses broad topics like quantum entanglement and specific timely issues like government quantum technology research. The diverse topics showcase how involved quantum physics is in questions and ideas, from applications to fundamental concepts.
Modern natural science is characterized by non-mechanistic and non-metaphysical approaches compared to classical science. Key aspects include ideas about the development of nature, different forms of matter motion, various structural levels of natural organization, and expanding views of causal relationships. Modern natural science also takes a systems approach to understanding nature as a whole, sees the world as hierarchical systems rather than studying objects in isolation, and recognizes that absolute truth is unattainable. It incorporates new theories from areas like relativity, quantum mechanics, and evolution that have emerged across natural science disciplines.
When I was asked to give a companion lecture in support of ‘The Philosophy of Science’ (https://shorturl.at/4pUXz) I decided not to walk through the detail of the many methodologies in order of use. Instead, I chose to employ a long standing, and ongoing, scientific development as an exemplar. And so, I chose the ever evolving story of Thermodynamics as a scientific investigation at its best.
Conducted over a period of >200 years, Thermodynamics R&D, and application, benefitted from the highest levels of professionalism, collaboration, and technical thoroughness. New layers of application, methodology, and practice were made possible by the progressive advance of technology. In turn, this has seen measurement and modelling accuracy continually improved at a micro and macro level.
Perhaps most importantly, Thermodynamics rapidly became a primary tool in the advance of applied science/engineering/technology, spanning micro-tech, to aerospace and cosmology. I can think of no better a story to illustrate the breadth of scientific methodologies and applications at their best.
This document provides an overview and introduction to a Natural Science I course taught by Dr. Henry J. Ramos. It outlines the course objectives, requirements, topics to be covered which include the history of physics and chemistry from ancient views to modern quantum theory. It also discusses the nature of science, the scientific method, characteristics of physics, and the relationship between science and society.
The document discusses how developments in science and humanities have challenged traditional reductionist views of the world. It provides examples from physics to illustrate this, including how quantum mechanics introduced uncertainty and probability, contradicting Newtonian ideas of determinism. Developments in logic and social science also introduced indeterminism. The document analyzes views of scientists like Newton, Einstein, Feynman, and Prigogine, as well as politicians and artists, on these changes. It explores how ideas from Chinese culture could contribute to developing a new, more inclusive civilization.
Unveiling the Wonders of Scientific Tools - A Journey Through the Modern-Day ...gosciencecrazy
In this article, we embark on a journey through the realm of scientific tools, exploring their significance, advancements, and the avenues they open for discovery. visit: https://gosciencecrazy.com
This document introduces 12 finalists for the 2009 Blavatnik Awards competition, which recognizes and celebrates young scientists and engineers in New York, New Jersey, and Connecticut. It provides brief biographies of 3 finalists - Sreekanth Chalasani, Paul Chirik, and Ofer Feinerman - summarizing their educational backgrounds, current positions, and innovative research focused on neurobiology, green chemistry, and immunology respectively.
Quantum mechanics is the science that studies the behavior of particles such as photons and electrons at the atomic and subatomic scale. It provides a unified view of how particles behave as both waves and particles. Astrobiology is the science responsible for searching for life on other planets and studying the origins and evolution of life. It encompasses searching for habitable environments in our solar system and beyond, as well as studying the potential for life to adapt to different challenges.
Quantum mechanics is the science that studies the behavior of particles such as photons and electrons at the atomic and subatomic scale. It provides a unified view of how particles behave as both waves and particles. Astrobiology is the science responsible for searching for life on other planets and studying the origins and evolution of life. It encompasses searching for habitable environments in our solar system and beyond, as well as studying the potential for life to adapt to different challenges.
What Is CSR and Why Must Companies Embrace It?Mark Lyttleton
Corporate social responsibility (CSR) is a term used to describe a business’s approach to sustainable development.
Read more: https://medium.com/@mark-lyttleton/skooteco-named-among-uks-most-innovative-new-businesses-f3a6ca789e99
Environmental stewardship is a responsibility for the environment shared by everyone whose actions affect it.
Read more: https://marklyttleton.co.uk/coventry-building-society-arena-enters-into-exciting-new-partnership-with-skoot/
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Infinite Energy, Space Travel... Would this be the greatest Discovery of our ...GLOBAL HEAVYLIFT HOLDINGS
"This might be the greatest discovery of our time. The Holy Grail of almost infinite energy production, and propulsion through the universe using the fabric of nature. I am telling this story as it was told to me.
In 2013, an international incident was created by the intent of a government to violate a treaty to share scientific information with another. The scientists and their work had to be extracted before the scientists were assassinated and their work used as strategic advantage to who knows what purposes.
Just a couple of hours more and the scientists would have been killed and the discovery would be in the hands of only one country, and may not for the most noble of purposes." - Francisco Lopez
The document discusses the history and nature of theories of light. It describes early theories including Newton's particle theory and Huygens' wave theory. It then explains Maxwell's electromagnetic theory and Einstein's quantum theory of light, which unified wave and particle properties. The development of theories has been driven by experiments and mathematics. Today's accepted theory is the quantum theory of light, which has revolutionized understanding and technology development like lasers and optical devices.
Research done by Mahendra Kumar Trivedi - Effect of Superconsciousness Extern...john henrry
Research on Trivedi Effect - The present paper is the first scientific report that deals with the effect of consciousness energy which Mahendra Trivedi uniquely communicates through thought intervention by sending an information signal that transforms carbon allotropes to read more visit http://www.academicroom.com/article/effect-superconsciousness-external-energy-atomic-crystalline-and-powder-characterisitics-%E2%80%9Ccarbon-allotrope-powders%E2%80%9D
Research done by Mahendra Kumar Trivedi - Effect of Superconsciousness Extern...Abby Keif
Research on Trivedi Effect - The present paper is the first scientific report that deals with the effect of consciousness energy which Mahendra Trivedi uniquely communicates through thought intervention by sending an information signal that transforms carbon allotropes. Visit http://works.bepress.com/mahendra_trivedi/6/ to read paper.
SCIENCE and TECHNOLOGY XXI: New Physical Science XXIAzamat Abdoullaev
Physics 1.0 Physics 2.0 Physics 3.0 … Physics X.0
the First Principles in NATURE:
Force-Interactions, Super symmetry Force, or Proto Force Convertibility OF FORCES Conservation OF FORCES
Reversibility OF FORCES
UNITY OF FORCES, QUANTUM GRAVITY
Dark Energy Universe
All Existence is Relative, All Nature is Reversible, All Forces are coming from one Proto Force
Read i-book: SCIENCE and TECHNOLOGY 21, New PHYSICA, to completely change your standard conception of PHYSICAL REALITY
On the First Principles and Laws in Physical Science: Force-Relations, Convertibility, and Reversibility
The Nobel Prize in Physics has been awarded 109 times to 201 Nobel Laureates between 1901 and 2015, according to the Nobel Foundation. The key achievements lie in the serendipitous and intuitive and ingenious discovering of empirical physical laws and effects, as the Einstein’s law of photoelectric effect, the Compton effect, the Cherenkov effect, the Mössbauer effect, the Hall effects and others, enriched with new discoveries of subatomic entities, symmetry principles, conservation laws and unified force fields theories.
The formulated Principle of Process Reversal and its Convertibility Laws enable the description of diverse physical processes and phenomena and the prediction of actions of physical forces and effects in the systematic and consistent ways without having to consider the details of the courses of physical processes and systems.
It is shown that the Principle of Process Reversal combines all the key attribute of universal laws of nature: asserts the interdependence between varying quantities of physical properties; states that physical events occur in an invariant order; supports cause and effect relationships, and states a constant regularity in the relations or order of physical phenomena in the world, embracing the empirical regularities of numerous physical effects.
Above everything, the Reversibility Law implies that if there is some physical effect in nature, there must be its inverse, converse or reversed action, otherwise it is not a real effect. Or, if there is the Doppler effect, there must be the Inverse Doppler effect by LAW, the Law of Reversibility.
The document discusses three sciences: biology, physics, and chemistry. Biology is defined as the study of life, including structure, function, growth, and evolution of organisms. Physics is the study of matter, energy, and their interaction in nature. Chemistry is the study of matter and its composition, structure, and properties during chemical reactions. The author expresses their interest in science and how these fields can help improve lifestyle and led to technological advances.
The document discusses three sciences: biology, physics, and chemistry. Biology is defined as the study of life, including structure, function, growth, and evolution of organisms. Physics is the study of matter, energy, and their interaction, which has led to advances like television and computers. Chemistry is the study of matter and its composition, behavior, and changes during chemical reactions. It examines atoms, molecules, and their energy and entropy during chemical processes.
The document discusses three sciences: biology, physics, and chemistry. Biology is defined as the study of life, including cell theory and evolution. Physics is the study of matter and its motion through space and time, which has led to advances like television and computers. Chemistry is concerned with the composition, structure, and properties of matter and the changes during chemical reactions. It incorporates concepts of energy and entropy in chemical processes.
This document provides definitions and descriptions of key concepts in earth and life science. It defines science as using systematic methods like observation and experimentation to study the natural world. It then discusses the universe and branches of science like space, time, energy, matter, and dark matter. Space is described as the three-dimensional extent in which objects have position and direction. Time is the progress of existence from past to future. Energy must be transferred to objects to cause change, and is conserved. Matter occupies space and has mass. Dark matter is estimated to make up 85% of the universe's matter.
Around the turn of the 20th century, physicists discovered subatomic particles like electrons and protons. However, classical physics could not explain phenomena at the atomic scale. This led to the development of quantum physics, one of the most important intellectual movements. Quantum physics explains how computers and the internet work and allows scientists to predict particle behavior. The book discusses how quantum physics has limitless applications but the underlying reasons are less understood. It addresses broad topics like quantum entanglement and specific timely issues like government quantum technology research. The diverse topics showcase how involved quantum physics is in questions and ideas, from applications to fundamental concepts.
Modern natural science is characterized by non-mechanistic and non-metaphysical approaches compared to classical science. Key aspects include ideas about the development of nature, different forms of matter motion, various structural levels of natural organization, and expanding views of causal relationships. Modern natural science also takes a systems approach to understanding nature as a whole, sees the world as hierarchical systems rather than studying objects in isolation, and recognizes that absolute truth is unattainable. It incorporates new theories from areas like relativity, quantum mechanics, and evolution that have emerged across natural science disciplines.
When I was asked to give a companion lecture in support of ‘The Philosophy of Science’ (https://shorturl.at/4pUXz) I decided not to walk through the detail of the many methodologies in order of use. Instead, I chose to employ a long standing, and ongoing, scientific development as an exemplar. And so, I chose the ever evolving story of Thermodynamics as a scientific investigation at its best.
Conducted over a period of >200 years, Thermodynamics R&D, and application, benefitted from the highest levels of professionalism, collaboration, and technical thoroughness. New layers of application, methodology, and practice were made possible by the progressive advance of technology. In turn, this has seen measurement and modelling accuracy continually improved at a micro and macro level.
Perhaps most importantly, Thermodynamics rapidly became a primary tool in the advance of applied science/engineering/technology, spanning micro-tech, to aerospace and cosmology. I can think of no better a story to illustrate the breadth of scientific methodologies and applications at their best.
This document provides an overview and introduction to a Natural Science I course taught by Dr. Henry J. Ramos. It outlines the course objectives, requirements, topics to be covered which include the history of physics and chemistry from ancient views to modern quantum theory. It also discusses the nature of science, the scientific method, characteristics of physics, and the relationship between science and society.
The document discusses how developments in science and humanities have challenged traditional reductionist views of the world. It provides examples from physics to illustrate this, including how quantum mechanics introduced uncertainty and probability, contradicting Newtonian ideas of determinism. Developments in logic and social science also introduced indeterminism. The document analyzes views of scientists like Newton, Einstein, Feynman, and Prigogine, as well as politicians and artists, on these changes. It explores how ideas from Chinese culture could contribute to developing a new, more inclusive civilization.
Unveiling the Wonders of Scientific Tools - A Journey Through the Modern-Day ...gosciencecrazy
In this article, we embark on a journey through the realm of scientific tools, exploring their significance, advancements, and the avenues they open for discovery. visit: https://gosciencecrazy.com
This document introduces 12 finalists for the 2009 Blavatnik Awards competition, which recognizes and celebrates young scientists and engineers in New York, New Jersey, and Connecticut. It provides brief biographies of 3 finalists - Sreekanth Chalasani, Paul Chirik, and Ofer Feinerman - summarizing their educational backgrounds, current positions, and innovative research focused on neurobiology, green chemistry, and immunology respectively.
Quantum mechanics is the science that studies the behavior of particles such as photons and electrons at the atomic and subatomic scale. It provides a unified view of how particles behave as both waves and particles. Astrobiology is the science responsible for searching for life on other planets and studying the origins and evolution of life. It encompasses searching for habitable environments in our solar system and beyond, as well as studying the potential for life to adapt to different challenges.
Quantum mechanics is the science that studies the behavior of particles such as photons and electrons at the atomic and subatomic scale. It provides a unified view of how particles behave as both waves and particles. Astrobiology is the science responsible for searching for life on other planets and studying the origins and evolution of life. It encompasses searching for habitable environments in our solar system and beyond, as well as studying the potential for life to adapt to different challenges.
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Candidate young stellar objects in the S-cluster: Kinematic analysis of a sub...Sérgio Sacani
Context. The observation of several L-band emission sources in the S cluster has led to a rich discussion of their nature. However, a definitive answer to the classification of the dusty objects requires an explanation for the detection of compact Doppler-shifted Brγ emission. The ionized hydrogen in combination with the observation of mid-infrared L-band continuum emission suggests that most of these sources are embedded in a dusty envelope. These embedded sources are part of the S-cluster, and their relationship to the S-stars is still under debate. To date, the question of the origin of these two populations has been vague, although all explanations favor migration processes for the individual cluster members. Aims. This work revisits the S-cluster and its dusty members orbiting the supermassive black hole SgrA* on bound Keplerian orbits from a kinematic perspective. The aim is to explore the Keplerian parameters for patterns that might imply a nonrandom distribution of the sample. Additionally, various analytical aspects are considered to address the nature of the dusty sources. Methods. Based on the photometric analysis, we estimated the individual H−K and K−L colors for the source sample and compared the results to known cluster members. The classification revealed a noticeable contrast between the S-stars and the dusty sources. To fit the flux-density distribution, we utilized the radiative transfer code HYPERION and implemented a young stellar object Class I model. We obtained the position angle from the Keplerian fit results; additionally, we analyzed the distribution of the inclinations and the longitudes of the ascending node. Results. The colors of the dusty sources suggest a stellar nature consistent with the spectral energy distribution in the near and midinfrared domains. Furthermore, the evaporation timescales of dusty and gaseous clumps in the vicinity of SgrA* are much shorter ( 2yr) than the epochs covered by the observations (≈15yr). In addition to the strong evidence for the stellar classification of the D-sources, we also find a clear disk-like pattern following the arrangements of S-stars proposed in the literature. Furthermore, we find a global intrinsic inclination for all dusty sources of 60 ± 20◦, implying a common formation process. Conclusions. The pattern of the dusty sources manifested in the distribution of the position angles, inclinations, and longitudes of the ascending node strongly suggests two different scenarios: the main-sequence stars and the dusty stellar S-cluster sources share a common formation history or migrated with a similar formation channel in the vicinity of SgrA*. Alternatively, the gravitational influence of SgrA* in combination with a massive perturber, such as a putative intermediate mass black hole in the IRS 13 cluster, forces the dusty objects and S-stars to follow a particular orbital arrangement. Key words. stars: black holes– stars: formation– Galaxy: center– galaxies: star formation
(June 12, 2024) Webinar: Development of PET theranostics targeting the molecu...Scintica Instrumentation
Targeting Hsp90 and its pathogen Orthologs with Tethered Inhibitors as a Diagnostic and Therapeutic Strategy for cancer and infectious diseases with Dr. Timothy Haystead.
Sexuality - Issues, Attitude and Behaviour - Applied Social Psychology - Psyc...PsychoTech Services
A proprietary approach developed by bringing together the best of learning theories from Psychology, design principles from the world of visualization, and pedagogical methods from over a decade of training experience, that enables you to: Learn better, faster!
Immersive Learning That Works: Research Grounding and Paths ForwardLeonel Morgado
We will metaverse into the essence of immersive learning, into its three dimensions and conceptual models. This approach encompasses elements from teaching methodologies to social involvement, through organizational concerns and technologies. Challenging the perception of learning as knowledge transfer, we introduce a 'Uses, Practices & Strategies' model operationalized by the 'Immersive Learning Brain' and ‘Immersion Cube’ frameworks. This approach offers a comprehensive guide through the intricacies of immersive educational experiences and spotlighting research frontiers, along the immersion dimensions of system, narrative, and agency. Our discourse extends to stakeholders beyond the academic sphere, addressing the interests of technologists, instructional designers, and policymakers. We span various contexts, from formal education to organizational transformation to the new horizon of an AI-pervasive society. This keynote aims to unite the iLRN community in a collaborative journey towards a future where immersive learning research and practice coalesce, paving the way for innovative educational research and practice landscapes.
Anti-Universe And Emergent Gravity and the Dark UniverseSérgio Sacani
Recent theoretical progress indicates that spacetime and gravity emerge together from the entanglement structure of an underlying microscopic theory. These ideas are best understood in Anti-de Sitter space, where they rely on the area law for entanglement entropy. The extension to de Sitter space requires taking into account the entropy and temperature associated with the cosmological horizon. Using insights from string theory, black hole physics and quantum information theory we argue that the positive dark energy leads to a thermal volume law contribution to the entropy that overtakes the area law precisely at the cosmological horizon. Due to the competition between area and volume law entanglement the microscopic de Sitter states do not thermalise at sub-Hubble scales: they exhibit memory effects in the form of an entropy displacement caused by matter. The emergent laws of gravity contain an additional ‘dark’ gravitational force describing the ‘elastic’ response due to the entropy displacement. We derive an estimate of the strength of this extra force in terms of the baryonic mass, Newton’s constant and the Hubble acceleration scale a0 = cH0, and provide evidence for the fact that this additional ‘dark gravity force’ explains the observed phenomena in galaxies and clusters currently attributed to dark matter.
Discovery of An Apparent Red, High-Velocity Type Ia Supernova at 𝐳 = 2.9 wi...Sérgio Sacani
We present the JWST discovery of SN 2023adsy, a transient object located in a host galaxy JADES-GS
+
53.13485
−
27.82088
with a host spectroscopic redshift of
2.903
±
0.007
. The transient was identified in deep James Webb Space Telescope (JWST)/NIRCam imaging from the JWST Advanced Deep Extragalactic Survey (JADES) program. Photometric and spectroscopic followup with NIRCam and NIRSpec, respectively, confirm the redshift and yield UV-NIR light-curve, NIR color, and spectroscopic information all consistent with a Type Ia classification. Despite its classification as a likely SN Ia, SN 2023adsy is both fairly red (
�
(
�
−
�
)
∼
0.9
) despite a host galaxy with low-extinction and has a high Ca II velocity (
19
,
000
±
2
,
000
km/s) compared to the general population of SNe Ia. While these characteristics are consistent with some Ca-rich SNe Ia, particularly SN 2016hnk, SN 2023adsy is intrinsically brighter than the low-
�
Ca-rich population. Although such an object is too red for any low-
�
cosmological sample, we apply a fiducial standardization approach to SN 2023adsy and find that the SN 2023adsy luminosity distance measurement is in excellent agreement (
≲
1
�
) with
Λ
CDM. Therefore unlike low-
�
Ca-rich SNe Ia, SN 2023adsy is standardizable and gives no indication that SN Ia standardized luminosities change significantly with redshift. A larger sample of distant SNe Ia is required to determine if SN Ia population characteristics at high-
�
truly diverge from their low-
�
counterparts, and to confirm that standardized luminosities nevertheless remain constant with redshift.
JAMES WEBB STUDY THE MASSIVE BLACK HOLE SEEDSSérgio Sacani
The pathway(s) to seeding the massive black holes (MBHs) that exist at the heart of galaxies in the present and distant Universe remains an unsolved problem. Here we categorise, describe and quantitatively discuss the formation pathways of both light and heavy seeds. We emphasise that the most recent computational models suggest that rather than a bimodal-like mass spectrum between light and heavy seeds with light at one end and heavy at the other that instead a continuum exists. Light seeds being more ubiquitous and the heavier seeds becoming less and less abundant due the rarer environmental conditions required for their formation. We therefore examine the different mechanisms that give rise to different seed mass spectrums. We show how and why the mechanisms that produce the heaviest seeds are also among the rarest events in the Universe and are hence extremely unlikely to be the seeds for the vast majority of the MBH population. We quantify, within the limits of the current large uncertainties in the seeding processes, the expected number densities of the seed mass spectrum. We argue that light seeds must be at least 103 to 105 times more numerous than heavy seeds to explain the MBH population as a whole. Based on our current understanding of the seed population this makes heavy seeds (Mseed > 103 M⊙) a significantly more likely pathway given that heavy seeds have an abundance pattern than is close to and likely in excess of 10−4 compared to light seeds. Finally, we examine the current state-of-the-art in numerical calculations and recent observations and plot a path forward for near-future advances in both domains.
Evidence of Jet Activity from the Secondary Black Hole in the OJ 287 Binary S...Sérgio Sacani
Wereport the study of a huge optical intraday flare on 2021 November 12 at 2 a.m. UT in the blazar OJ287. In the binary black hole model, it is associated with an impact of the secondary black hole on the accretion disk of the primary. Our multifrequency observing campaign was set up to search for such a signature of the impact based on a prediction made 8 yr earlier. The first I-band results of the flare have already been reported by Kishore et al. (2024). Here we combine these data with our monitoring in the R-band. There is a big change in the R–I spectral index by 1.0 ±0.1 between the normal background and the flare, suggesting a new component of radiation. The polarization variation during the rise of the flare suggests the same. The limits on the source size place it most reasonably in the jet of the secondary BH. We then ask why we have not seen this phenomenon before. We show that OJ287 was never before observed with sufficient sensitivity on the night when the flare should have happened according to the binary model. We also study the probability that this flare is just an oversized example of intraday variability using the Krakow data set of intense monitoring between 2015 and 2023. We find that the occurrence of a flare of this size and rapidity is unlikely. In machine-readable Tables 1 and 2, we give the full orbit-linked historical light curve of OJ287 as well as the dense monitoring sample of Krakow.
TOPIC OF DISCUSSION: CENTRIFUGATION SLIDESHARE.pptxshubhijain836
Centrifugation is a powerful technique used in laboratories to separate components of a heterogeneous mixture based on their density. This process utilizes centrifugal force to rapidly spin samples, causing denser particles to migrate outward more quickly than lighter ones. As a result, distinct layers form within the sample tube, allowing for easy isolation and purification of target substances.
Mending Clothing to Support Sustainable Fashion_CIMaR 2024.pdfSelcen Ozturkcan
Ozturkcan, S., Berndt, A., & Angelakis, A. (2024). Mending clothing to support sustainable fashion. Presented at the 31st Annual Conference by the Consortium for International Marketing Research (CIMaR), 10-13 Jun 2024, University of Gävle, Sweden.
Describing and Interpreting an Immersive Learning Case with the Immersion Cub...Leonel Morgado
Current descriptions of immersive learning cases are often difficult or impossible to compare. This is due to a myriad of different options on what details to include, which aspects are relevant, and on the descriptive approaches employed. Also, these aspects often combine very specific details with more general guidelines or indicate intents and rationales without clarifying their implementation. In this paper we provide a method to describe immersive learning cases that is structured to enable comparisons, yet flexible enough to allow researchers and practitioners to decide which aspects to include. This method leverages a taxonomy that classifies educational aspects at three levels (uses, practices, and strategies) and then utilizes two frameworks, the Immersive Learning Brain and the Immersion Cube, to enable a structured description and interpretation of immersive learning cases. The method is then demonstrated on a published immersive learning case on training for wind turbine maintenance using virtual reality. Applying the method results in a structured artifact, the Immersive Learning Case Sheet, that tags the case with its proximal uses, practices, and strategies, and refines the free text case description to ensure that matching details are included. This contribution is thus a case description method in support of future comparative research of immersive learning cases. We then discuss how the resulting description and interpretation can be leveraged to change immersion learning cases, by enriching them (considering low-effort changes or additions) or innovating (exploring more challenging avenues of transformation). The method holds significant promise to support better-grounded research in immersive learning.
2. M A R K L Y T T L E T O N
2
Q
uantum physics is
the study of energy
and matter at the
most fundamental level.
Its aim is to uncover the
behaviours and properties
of the building blocks of life.
Quantum experiments
typically examine very small
objects, such as photons
and electrons. Nevertheless,
quantum phenomena
abound in everyday life,
acting on every scale,
although it is generally
more challenging to detect
them in larger objects.
EXPLORING
QUANTUM PHYSICS
AND THE FIELD’S
PIONEERS
3. 3
M A R K L Y T T L E T O N
and serves as president of the
STEMM Global scientific society.
• Mehdi Golshani, a distinguished
professor at Sharif University of
Technology in Iran who is also a
founding fellow of the Institute for
Studies in Theoretical Physics and
Mathematics and a senior fellow at
the Academy of Sciences of Iran.
• Charles Kittel, a professor at the
University of California, Berkeley
who was professor emeritus from
1978 until his death.
Discoveries achieved in the field of quantum physics have improved humankind’s understanding of
biology, chemistry, materials and astronomy, serving as an invaluable resource for innovation and
giving rise to the development of game-changing technologies such as transistors and lasers.
Discoveries achieved in the field of
quantum physics have improved
humankind’s understanding of
biology, chemistry, materials and
astronomy, serving as an invaluable
resource for innovation and giving
rise to the development of game-
changing technologies such as
transistors and lasers.
Eminent quantum physicists include:
• Yang-Hui He, a fellow at the
London Institute who is a pioneer
of using AI for pure mathematics
4. M A R K L Y T T L E T O N .
YOU CAN LEARN
A B O U T T H E O V E R L A P B E T W E E N Q U A N T U M
P H Y S I C S A N D P R A N I C H E A L I N G B Y V I S I T I N G T H E
B L O G M A R K L Y T T L E T O N .