This document discusses recent work in cosmology that attempts to explain the Big Bang itself using insights from particle physics. Some physicists argue that the notion of "quantum tunneling from nothing," which accounts for the emergence of subatomic particles from a vacuum, can provide an explanation for the creation of the universe from nothing. However, in examining apparent theological and philosophical implications, we must carefully understand different senses of "nothing" and the "origin of the universe," as well as the distinction between creation and change. Creation is a metaphysical and theological concept beyond the realm of natural sciences.
- The document discusses the Big Bang theory of the origin and expansion of the universe, and the search for the Higgs boson particle through experiments at the Large Hadron Collider.
- It explains that the Big Bang originated from a point of infinite density where the laws of physics break down, and that black holes may give birth to "baby universes" through singularities.
- The document highlights how particle physics experiments like those at the LHC aim to understand the fundamental forces and particles that make up the universe, such as the still-hypothetical Higgs boson particle.
We believe the quantum entanglement is caused by the very space itself, not by any particles, and thus not bounded by the speed of light, so is the gravity, we stand at fireworks side.
The Big Bang model postulates that the universe began as a hot dense state around 13.8 billion years ago and has since expanded and cooled. It is supported by two theoretical pillars: general relativity, which describes gravity as the curvature of spacetime, and the cosmological principle that the universe is homogeneous and isotropic on large scales. The model accounts for the cosmic microwave background radiation and expansion of the universe, but is incomplete as it does not explain structure formation or the universe's uniformity on the largest scales.
The document provides an overview of quantum entanglement, including:
- Entangled particles cannot be described independently and must be described as a whole system. Measurements of one particle seem to instantaneously influence the other, even when separated by large distances.
- Early pioneers like Einstein, Schrodinger, and Podolsky struggled to understand entanglement and viewed it as evidence that quantum mechanics was incomplete.
- A 2015 experiment at Delft University was the first to close all loopholes in verifying Bell's theorem and violations of local realism, providing strong evidence that entanglement involves truly non-local correlations.
- Potential applications of entanglement include quantum cryptography, where entangled particles allow secure communication without a
This document discusses the current state of confusion in physics regarding the origins and development of the universe. It covers several key topics:
1) The inflationary theory proposes the universe rapidly expanded from something smaller than a proton but does not explain what caused the Big Bang. Cosmologists debate what preceded it.
2) Some propose the universe emerged from a quantum fluctuation, though how order developed from randomness is unclear.
3) For laws of physics to exist at the Big Bang implies a great mathematician/physicist predated the universe.
4) Explanations like multiverse theory raise more questions than answers and seem like science fiction. Mystery substances like dark matter and dark energy are largely un
1. Quantum entanglement describes a phenomenon where two quantum particles interact in such a way that they become linked regardless of distance, so that measuring one particle instantly affects the state of the other.
2. Einstein was critical of quantum mechanics and its implications of "spooky action at a distance," which led to the development of experiments to test theories of quantum entanglement.
3. Repeated experiments confirmed the existence of quantum entanglement and disproved Einstein's theories, showing that entangled particles are truly linked regardless of distance.
- In 1976, Stephen Hawking argued that black holes destroy information, requiring a modification of quantum mechanics principles. In 2004, he changed his mind.
- Maldacena's 1997 discovery of AdS/CFT duality suggested that a black hole is dual to an ordinary thermal system described by quantum mechanics, where information is preserved. However, questions remain about how spacetime emerges in AdS/CFT and how holography works in other spacetimes.
- A 2013 paper proposed that the postulates of black hole complementarity - purity, no drama at the horizon, effective field theory validity outside the horizon - cannot all be true, suggesting a "firewall" of high-energy particles may form at the black
The First Annual Robert Grosseteste Lecture on Astrophysics/Cosmology, a public talk given at the University of Lincoln.
The lecture focusses on the large-scale structure of the Universe and the ideas that physicists are weaving together to explain how it came to be the way it is. Over the last few decades, astronomers have revealed that our cosmos is not only vast in scale – at least 14 billion light years in radius – but also exceedingly complex, with galaxies and clusters of galaxies linked together in immense chains and sheets, surrounding giant voids of (apparently) empty space. Cosmologists have developed theoretical explanations for its origin that involve such exotic concepts as ‘dark matter’, ‘dark energy’ and ‘cosmic inflation’, producing a cosmic web of ideas that is, in some ways, as rich and fascinating as the Universe itself.
- The document discusses the Big Bang theory of the origin and expansion of the universe, and the search for the Higgs boson particle through experiments at the Large Hadron Collider.
- It explains that the Big Bang originated from a point of infinite density where the laws of physics break down, and that black holes may give birth to "baby universes" through singularities.
- The document highlights how particle physics experiments like those at the LHC aim to understand the fundamental forces and particles that make up the universe, such as the still-hypothetical Higgs boson particle.
We believe the quantum entanglement is caused by the very space itself, not by any particles, and thus not bounded by the speed of light, so is the gravity, we stand at fireworks side.
The Big Bang model postulates that the universe began as a hot dense state around 13.8 billion years ago and has since expanded and cooled. It is supported by two theoretical pillars: general relativity, which describes gravity as the curvature of spacetime, and the cosmological principle that the universe is homogeneous and isotropic on large scales. The model accounts for the cosmic microwave background radiation and expansion of the universe, but is incomplete as it does not explain structure formation or the universe's uniformity on the largest scales.
The document provides an overview of quantum entanglement, including:
- Entangled particles cannot be described independently and must be described as a whole system. Measurements of one particle seem to instantaneously influence the other, even when separated by large distances.
- Early pioneers like Einstein, Schrodinger, and Podolsky struggled to understand entanglement and viewed it as evidence that quantum mechanics was incomplete.
- A 2015 experiment at Delft University was the first to close all loopholes in verifying Bell's theorem and violations of local realism, providing strong evidence that entanglement involves truly non-local correlations.
- Potential applications of entanglement include quantum cryptography, where entangled particles allow secure communication without a
This document discusses the current state of confusion in physics regarding the origins and development of the universe. It covers several key topics:
1) The inflationary theory proposes the universe rapidly expanded from something smaller than a proton but does not explain what caused the Big Bang. Cosmologists debate what preceded it.
2) Some propose the universe emerged from a quantum fluctuation, though how order developed from randomness is unclear.
3) For laws of physics to exist at the Big Bang implies a great mathematician/physicist predated the universe.
4) Explanations like multiverse theory raise more questions than answers and seem like science fiction. Mystery substances like dark matter and dark energy are largely un
1. Quantum entanglement describes a phenomenon where two quantum particles interact in such a way that they become linked regardless of distance, so that measuring one particle instantly affects the state of the other.
2. Einstein was critical of quantum mechanics and its implications of "spooky action at a distance," which led to the development of experiments to test theories of quantum entanglement.
3. Repeated experiments confirmed the existence of quantum entanglement and disproved Einstein's theories, showing that entangled particles are truly linked regardless of distance.
- In 1976, Stephen Hawking argued that black holes destroy information, requiring a modification of quantum mechanics principles. In 2004, he changed his mind.
- Maldacena's 1997 discovery of AdS/CFT duality suggested that a black hole is dual to an ordinary thermal system described by quantum mechanics, where information is preserved. However, questions remain about how spacetime emerges in AdS/CFT and how holography works in other spacetimes.
- A 2013 paper proposed that the postulates of black hole complementarity - purity, no drama at the horizon, effective field theory validity outside the horizon - cannot all be true, suggesting a "firewall" of high-energy particles may form at the black
The First Annual Robert Grosseteste Lecture on Astrophysics/Cosmology, a public talk given at the University of Lincoln.
The lecture focusses on the large-scale structure of the Universe and the ideas that physicists are weaving together to explain how it came to be the way it is. Over the last few decades, astronomers have revealed that our cosmos is not only vast in scale – at least 14 billion light years in radius – but also exceedingly complex, with galaxies and clusters of galaxies linked together in immense chains and sheets, surrounding giant voids of (apparently) empty space. Cosmologists have developed theoretical explanations for its origin that involve such exotic concepts as ‘dark matter’, ‘dark energy’ and ‘cosmic inflation’, producing a cosmic web of ideas that is, in some ways, as rich and fascinating as the Universe itself.
The sixth area of New Energy science that we think is key to tapping energy from the quantum vacuum. This is electrogravitics, which was pioneered by Alfred Biefeld and Thomas Townsend Brown. Long used in covert military projects for super-fast aviation and aerospace propulsion, this is a science that is slowly attracting mainstream attention.
1. The multiverse theory proposes that there are multiple universes beyond the one we experience, arising from mechanisms like eternal inflation after the Big Bang.
2. There are several hypotheses for how the multiverse could exist, such as infinite universes, bubble universes arising from pockets where inflation continues, and daughter universes resulting from quantum probabilities.
3. While the multiverse has not been proven and poses challenges like not being able to observe other universes, it remains an intriguing theory that could be validated if methods for traveling between universes were discovered. The document discusses some possibilities and implications of the multiverse theory.
In this section, we look at how New Energy science is causing us to re-examine fundamental forces in Nature such as gravity and inertia. We can now understand how a certain type of "perpetual motion machine" is practical and how we can manipulate electron orbitals to extract free, clean energy from the quantum vacuum.
Brief discussion of some the problems of cold dark matter in cosmological structure formation, the idea of `fuzzy' dark matter and some applications of the Schrodinger-Poisson system for cosmic reconstruction.
Talk given at `Post-Planck Cosmology', Inter-University Centre for Astronomy and Astrophysics, Pune, India (12th October 2017).
The document discusses the multiverse theory, which proposes that our universe is one of many parallel universes that together comprise everything that exists. It describes different types of multiverse hypotheses, including those proposed by Max Tegmark, Brian Greene, and others. While the multiverse theory is debated in physics and lacks direct evidence, it has been explored in various works of fiction and media.
Gifford Lecture One: Cosmos, Time, MemorySean Carroll
Based on my book The Big Picture, this is the first of five lectures exploring how different ways of talking about the world fit together. The other four lectures are on YouTube.
El Británico Roger Penrose por sus desarrollos teóricos sobre agujeros negros. La Estadounidense Andrea Ghez y el Alemán Reinhald Genzel por el hallazgo de un objeto súper masivo y compacto en el centro de nuestra galaxia.
Por:
Herman J. Mosquera Cuesta
Ingeniero Mecánico UdeA.
PhD en Astrofísica.
Tres investigadores han sido galardonados con el premio Nobel de Física de este año por sus descubrimientos sobre estos fenómenos supermasivos. Roger Penrose por demostrar su existencia según la teoría de la relatividad general y Reinhard Genzel y Andrea Ghez por demostrar que los agujeros negros son capaces de interferir en las órbitas de estrellas cercanas.
Los astrónomos Roger Penrose, Reinhard Genzel y Andrea Ghez se han hecho con el premio Nobel de Física de 2020. El primero de los científicos ha obtenido la mitad del galardón por la demostración fáctica de la existencia de los agujeros negros, siguiendo los preceptos de la teoría de la relatividad de Einstein. Los otros dos investigadores han sido distinguidos por el descubrimiento de un objeto supermasivo en el centro de la Vía Láctea, a unos 26.000 años luz de nuestro planeta.
Reinhard Genzel y Andrea Ghez descubrieron un agujero negro en el centro de la Vía Láctea comprobando la velocidad de las órbitas de sus estrellas circundantes.
“Los descubrimientos de los galardonados de este año han abierto nuevos caminos en el estudio de objetos compactos y supermasivos. Pero estos objetos exóticos todavía plantean muchas preguntas que piden respuestas y plantean nuevos retos de investigación en el futuro, no solo sobre la estructura interna de estos objetos masivos, sino también sobre cómo usar la teoría de la relatividad general en condiciones extremas”, ha declarado David Haviland, presidente del Comité Nobel de Física.
Our universe may be one of many according to physicists. The multiverse theory proposes that our Big Bang was not unique and that other universes could have been created by other Big Bang events, resulting in an infinite number of universes. Some universes may resemble our own while most would be lifeless. The idea of a multiverse helps explain puzzles in cosmology like the flatness problem and provides a potential explanation for why the constants of physics in our universe allow for life. String theory incorporates the multiverse concept by predicting more than 10^500 types of universes from different vibrational modes of fundamental strings.
This document summarizes a talk given by Jack Sarfatti on the future affecting the past. It discusses several open problems in physics including unifying general relativity and quantum field theory, the possibility of time travel through wormholes, the nature of consciousness, and whether we live in a simulation. It presents evidence from scientific papers that the future can influence the present through quantum experiments and anomalous cognition experiments. It discusses retrocausality models in quantum mechanics that avoid nonlocality by allowing the future to influence the past.
This document provides an overview of dark matter and dark energy from both observational evidence in the universe and theoretical work done at particle accelerators in laboratories. It summarizes that observational evidence shows the universe is made up of 70% dark energy, 25% dark matter, and only 5% ordinary matter. While much is known about the basic features and inventory of the universe, deep puzzles remain about reconciling gravity and quantum mechanics, the nature of dark matter and dark energy, and resolving why observations of dark energy are so much smaller than theoretical predictions. The document discusses how ideas like extra dimensions, supersymmetry, and multiple compactifications in string theory attempt to address these puzzles, but that challenges remain in fully explaining dark energy and connecting theory to
Heisenberg uncertainity principle & wave particle duality roll (422) d1Omkar Rane
1) Davisson and Germer observed that electrons exhibited wave-like interference patterns when reflected off a crystal, providing evidence that particles can behave as waves.
2) De Broglie derived mathematical relationships between the particle properties of a wave-particle and its wave properties, relating momentum to wavelength and kinetic energy to frequency.
3) Wave-particle duality describes how light and other quantum objects behave as either particles or waves depending on the observation, as evidenced in experiments showing light's dual nature.
New Energy scientists believe that tapping energy from quantum vacuum fluctuations in the quantum foam/Zero Point Field could provide a new source of energy. They theorize that subatomic particles emerge constantly from this quantum foam, which is a fluctuating foundation of space-time. If devices can be made to resonate with these fluctuations, it may be possible to extract and harness this zero-point energy that is constantly being pushed into our universe from higher dimensions. However, achieving resonance with the chaotic quantum foam is difficult, requiring methods to induce coherence and order in a local region of the field.
1) Light is the ultimate tool for understanding the universe, as almost all information we have about the cosmos comes from light.
2) Light was first emitted around 379,000 years after the Big Bang, and the discovery of the cosmic microwave background radiation provided evidence of this first light.
3) Understanding light led to breakthroughs like the invention of lenses and telescopes, and the realization that light behaves as both a particle and a wave. Max Planck's work on blackbody radiation helped establish the foundations of quantum mechanics and spectroscopy.
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.
Paavo Pylkkänen is a professor at the University of Helsinki, Finland and the University of Skövde, Sweden who researches the philosophical implications of the ontological interpretation of quantum mechanics developed by de Broglie, Bohm, and Hiley. This interpretation sees the electron as both a particle and an active quantum wave field of information that guides the particle's behavior. Pylkkänen is particularly interested in how this concept of active information may apply beyond quantum physics in areas like biology, information technology, and cognitive science.
Black holes are regions of space where gravity is so strong that not even light can escape. They form when very massive stars collapse at the end of their life cycles. While black holes cannot be seen directly, astronomers can detect them by observing their effects on nearby objects like stars and gas, and through detection of x-rays emitted during accretion. Black holes come in different sizes, from stellar-mass black holes up to supermassive black holes that may exist at the centers of galaxies.
1) A new cosmological model is proposed where the universe is spontaneously created from nothing via quantum tunneling into a de Sitter space.
2) After tunneling, the model evolves according to the inflationary scenario, avoiding the big bang singularity and not requiring initial conditions.
3) The model suggests that the universe was created via quantum tunneling from a state of literally nothing into a de Sitter space, which then evolved into the expanding universe we observe according to known physics.
The sixth area of New Energy science that we think is key to tapping energy from the quantum vacuum. This is electrogravitics, which was pioneered by Alfred Biefeld and Thomas Townsend Brown. Long used in covert military projects for super-fast aviation and aerospace propulsion, this is a science that is slowly attracting mainstream attention.
1. The multiverse theory proposes that there are multiple universes beyond the one we experience, arising from mechanisms like eternal inflation after the Big Bang.
2. There are several hypotheses for how the multiverse could exist, such as infinite universes, bubble universes arising from pockets where inflation continues, and daughter universes resulting from quantum probabilities.
3. While the multiverse has not been proven and poses challenges like not being able to observe other universes, it remains an intriguing theory that could be validated if methods for traveling between universes were discovered. The document discusses some possibilities and implications of the multiverse theory.
In this section, we look at how New Energy science is causing us to re-examine fundamental forces in Nature such as gravity and inertia. We can now understand how a certain type of "perpetual motion machine" is practical and how we can manipulate electron orbitals to extract free, clean energy from the quantum vacuum.
Brief discussion of some the problems of cold dark matter in cosmological structure formation, the idea of `fuzzy' dark matter and some applications of the Schrodinger-Poisson system for cosmic reconstruction.
Talk given at `Post-Planck Cosmology', Inter-University Centre for Astronomy and Astrophysics, Pune, India (12th October 2017).
The document discusses the multiverse theory, which proposes that our universe is one of many parallel universes that together comprise everything that exists. It describes different types of multiverse hypotheses, including those proposed by Max Tegmark, Brian Greene, and others. While the multiverse theory is debated in physics and lacks direct evidence, it has been explored in various works of fiction and media.
Gifford Lecture One: Cosmos, Time, MemorySean Carroll
Based on my book The Big Picture, this is the first of five lectures exploring how different ways of talking about the world fit together. The other four lectures are on YouTube.
El Británico Roger Penrose por sus desarrollos teóricos sobre agujeros negros. La Estadounidense Andrea Ghez y el Alemán Reinhald Genzel por el hallazgo de un objeto súper masivo y compacto en el centro de nuestra galaxia.
Por:
Herman J. Mosquera Cuesta
Ingeniero Mecánico UdeA.
PhD en Astrofísica.
Tres investigadores han sido galardonados con el premio Nobel de Física de este año por sus descubrimientos sobre estos fenómenos supermasivos. Roger Penrose por demostrar su existencia según la teoría de la relatividad general y Reinhard Genzel y Andrea Ghez por demostrar que los agujeros negros son capaces de interferir en las órbitas de estrellas cercanas.
Los astrónomos Roger Penrose, Reinhard Genzel y Andrea Ghez se han hecho con el premio Nobel de Física de 2020. El primero de los científicos ha obtenido la mitad del galardón por la demostración fáctica de la existencia de los agujeros negros, siguiendo los preceptos de la teoría de la relatividad de Einstein. Los otros dos investigadores han sido distinguidos por el descubrimiento de un objeto supermasivo en el centro de la Vía Láctea, a unos 26.000 años luz de nuestro planeta.
Reinhard Genzel y Andrea Ghez descubrieron un agujero negro en el centro de la Vía Láctea comprobando la velocidad de las órbitas de sus estrellas circundantes.
“Los descubrimientos de los galardonados de este año han abierto nuevos caminos en el estudio de objetos compactos y supermasivos. Pero estos objetos exóticos todavía plantean muchas preguntas que piden respuestas y plantean nuevos retos de investigación en el futuro, no solo sobre la estructura interna de estos objetos masivos, sino también sobre cómo usar la teoría de la relatividad general en condiciones extremas”, ha declarado David Haviland, presidente del Comité Nobel de Física.
Our universe may be one of many according to physicists. The multiverse theory proposes that our Big Bang was not unique and that other universes could have been created by other Big Bang events, resulting in an infinite number of universes. Some universes may resemble our own while most would be lifeless. The idea of a multiverse helps explain puzzles in cosmology like the flatness problem and provides a potential explanation for why the constants of physics in our universe allow for life. String theory incorporates the multiverse concept by predicting more than 10^500 types of universes from different vibrational modes of fundamental strings.
This document summarizes a talk given by Jack Sarfatti on the future affecting the past. It discusses several open problems in physics including unifying general relativity and quantum field theory, the possibility of time travel through wormholes, the nature of consciousness, and whether we live in a simulation. It presents evidence from scientific papers that the future can influence the present through quantum experiments and anomalous cognition experiments. It discusses retrocausality models in quantum mechanics that avoid nonlocality by allowing the future to influence the past.
This document provides an overview of dark matter and dark energy from both observational evidence in the universe and theoretical work done at particle accelerators in laboratories. It summarizes that observational evidence shows the universe is made up of 70% dark energy, 25% dark matter, and only 5% ordinary matter. While much is known about the basic features and inventory of the universe, deep puzzles remain about reconciling gravity and quantum mechanics, the nature of dark matter and dark energy, and resolving why observations of dark energy are so much smaller than theoretical predictions. The document discusses how ideas like extra dimensions, supersymmetry, and multiple compactifications in string theory attempt to address these puzzles, but that challenges remain in fully explaining dark energy and connecting theory to
Heisenberg uncertainity principle & wave particle duality roll (422) d1Omkar Rane
1) Davisson and Germer observed that electrons exhibited wave-like interference patterns when reflected off a crystal, providing evidence that particles can behave as waves.
2) De Broglie derived mathematical relationships between the particle properties of a wave-particle and its wave properties, relating momentum to wavelength and kinetic energy to frequency.
3) Wave-particle duality describes how light and other quantum objects behave as either particles or waves depending on the observation, as evidenced in experiments showing light's dual nature.
New Energy scientists believe that tapping energy from quantum vacuum fluctuations in the quantum foam/Zero Point Field could provide a new source of energy. They theorize that subatomic particles emerge constantly from this quantum foam, which is a fluctuating foundation of space-time. If devices can be made to resonate with these fluctuations, it may be possible to extract and harness this zero-point energy that is constantly being pushed into our universe from higher dimensions. However, achieving resonance with the chaotic quantum foam is difficult, requiring methods to induce coherence and order in a local region of the field.
1) Light is the ultimate tool for understanding the universe, as almost all information we have about the cosmos comes from light.
2) Light was first emitted around 379,000 years after the Big Bang, and the discovery of the cosmic microwave background radiation provided evidence of this first light.
3) Understanding light led to breakthroughs like the invention of lenses and telescopes, and the realization that light behaves as both a particle and a wave. Max Planck's work on blackbody radiation helped establish the foundations of quantum mechanics and spectroscopy.
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.
Paavo Pylkkänen is a professor at the University of Helsinki, Finland and the University of Skövde, Sweden who researches the philosophical implications of the ontological interpretation of quantum mechanics developed by de Broglie, Bohm, and Hiley. This interpretation sees the electron as both a particle and an active quantum wave field of information that guides the particle's behavior. Pylkkänen is particularly interested in how this concept of active information may apply beyond quantum physics in areas like biology, information technology, and cognitive science.
Black holes are regions of space where gravity is so strong that not even light can escape. They form when very massive stars collapse at the end of their life cycles. While black holes cannot be seen directly, astronomers can detect them by observing their effects on nearby objects like stars and gas, and through detection of x-rays emitted during accretion. Black holes come in different sizes, from stellar-mass black holes up to supermassive black holes that may exist at the centers of galaxies.
1) A new cosmological model is proposed where the universe is spontaneously created from nothing via quantum tunneling into a de Sitter space.
2) After tunneling, the model evolves according to the inflationary scenario, avoiding the big bang singularity and not requiring initial conditions.
3) The model suggests that the universe was created via quantum tunneling from a state of literally nothing into a de Sitter space, which then evolved into the expanding universe we observe according to known physics.
ontology poiesis....
Ontologia dell’opera d’arte mah…essere per la salvezza dell’essere significa essere per la salvezza dell’arte? E l’opera d’arte aiuterà l’essere a salvarsi? Mah… solo l’opera d’arte ci può salvare? E solo l’arte salverà l’essere o il mito ontoteologico della salvezza della mondità? Solo l’arte ci potrà salvare? Solo il mito dell’opera d’arte può salvare il mito delle muse della poiesis o dell’ontopoiesis? Ma l’arte è anche la salvezza del musagete, quale essere divinità che si dà all’arte o dà all’arte la fondatezza del mito? O che disvela con l’arte l’ontologia ontopoietica dell’opera dell’esser-arte-nella mondità come nella mondanità, o esser-arte-per-la-morte dell’arte…  Già nelle origini della ermeneutica poetica la mimesis disvela la fondatezza della physis: aldilà della classicità simulativa, imitativa, clonante, tautologica, la mimesis quale apprensività attraverso lo sguardo, cattura con la vista, con gli occhi l’essere che si disvela nella sua physis. E’ l’esserci che com-prende contemplando l’eventuarsi della physis dell’essere, della natura dell’essere, dell’essere-nella-mondità. E’ la mimesis del disvelarsi dell’essere poetante…o l’ontologia dell’icona della physis quale ontologia dell’ikona dell’essere nel mondo. O l’ontologia della temporalità della physis che si disvela nel mondo quale spazialità immaginaria nella radura immaginaria ove s’eventua quale opera d’arte immaginaria… anzi l’ontologia fluttuante dell’essenza dell’essere poetante dà senso e dà alla luce la physis, non la imita o la modella o la ricorda, la divela quand’era abbandonata nell’oblio dalla fuga precipitosa degli dei epistemici, mitici, tecnici, ontoteologici quali il deus ex machina, la macchina poetica aristotelica. E’ indispensabile intraprendere gli studi e le ricerche dell’ontologia dell’opera d’arte, giacchè nel nuovo millennio tutte le configurazioni del sapere epistemico, ma anche le ontologie ermeneutiche, hanno evidenziato i propri confini aldiqua dell’essere-opera-d’arte, per concentrarsi solo sull’ontica, sulle entità narrate o sulle superentità ontoteologiche. L’epistemica dell’opera d’arte si è confinata nella sua ortogonalità calcolante, l’interpretanza ermeneutica ed intenzionale non si cura di offrire una fondatezza né alla nuova epistemica, né alla matesis virtuale, né alla physis immaginaria, né alla temporalità ontologica, men che mai dà fondamenta stabili alla struttura ontologica dell’opera d’arte. Solo il pensiero della disvelatezza resiste, o persiste nella sua re-esistenza, sostenuto dalla sua struttura ontologica fondata sull’essenza dell’essere-opera-d’arte-nel-mondo-per-la-morte. Ma la sua origine, o originalità o singolarità, non dispiega la sua pregnanza oltre la soglia del pensiero poetante che contempla poeticamente l’opera d’arte o la interpreta infinitamente nella temporalità kairos-logica più tosto che cronologica. Per raggiungere anche i sentieri interrotti della physis poetante dell’opera d’arte e quindi anche la fondatezza non tecnica della teknè, o il fondamento non epistemico dell’epistemica, la physis dell’opera d’arte si dovrà eventuare nella struttura ontologica dell’essere animati, aldilà dall’essere solo opera inanimata, per gettare le fondamenta nella radura, nel vuoto quantico epistemico, della topologia fluttuante dell’essere opera d’arte che si dà alla mondità per inter-essere o inter-esserci opera d’arte dell’essere animato che getta quale icona dell’essere-nel-mondo-della-morte-dell’arte. Può l’ontolgia dell’opera d’arte raccogliere gli eventi gettati nel sentiero dell’essere ed intraprendere la biforcazione dell’oltre che conduce alla radura, alla spazialità topologica sgombra dalle temporalità epistemiche o anche ermeneutiche, per approdare alla libera
1) The document discusses the current state of confusion in modern physics, specifically in cosmology and particle physics.
2) It examines various theories for the origin and evolution of the universe, such as inflationary theory and multiverse theory, which leave many questions unanswered about what caused the Big Bang and how the laws of physics emerged.
3) It also explores mysteries in particle physics like why particles have the properties they do, such as mass and charge, and how symmetry is broken, pointing out many unknowns in current models.
The document discusses various arguments for and against atheism/materialism and the existence of God. It summarizes the Kalam cosmological argument that whatever begins to exist has a cause, and the universe began to exist, therefore the universe has a cause. It then examines and refutes alternative models like the steady state theory, oscillating universe model, and vacuum fluctuation model that try to explain the origin and existence of the universe without requiring a cause.
Science and Religion - The origins of the universeJohn Wilkins
The document discusses the question of why there is something rather than nothing from scientific and philosophical perspectives. It covers:
1) The emergence of modern cosmology in the 20th century and proposals like the Big Bang theory and steady state theory to explain the origin and evolution of the universe.
2) How current scientific theories like quantum fluctuations and inflationary cosmology suggest that the universe could have spontaneously emerged from a prior state of "nothing" with zero total energy.
3) Philosophical critiques that question if these scientific accounts truly describe a state of "nothing" and if they fully explain where the laws that govern this process come from. The ultimate origin of the universe remains an open question.
The cyclic universe model proposes that the universe undergoes endless cycles of evolution in infinite space and time, with each cycle beginning with a big bang and ending in a big crunch. This challenges the conventional view that the big bang was the beginning of time. The model incorporates concepts from string theory, which suggests the big crunch and big bang transitions are caused by the collapse and expansion of extra dimensions rather than an actual singularity. Each cycle is consistent with observations like the cosmic microwave background and galaxy formation. The model may help explain open questions about what occurred before the big bang and the role of dark energy.
The document contains summaries of several articles on topics in cosmology and the search for extraterrestrial life. It discusses theories such as inflationary cosmology and the possibility of an infinite number of bubble universes. It also discusses the possibility of life on other planets and efforts to search for signals of intelligent life through the SETI Institute. While no confirmed signals have been detected so far, the discovery of an artificial signal would have huge scientific and social implications.
Estudo publicado que diz que para a vida em tamanha complexidade na terra, o Sol deixaria sua fase estrela e incineraria o planeta terra antes mesmo de qualquer vida pudesse existir, o que provaria que a vida na terra seria mesmo um "milagre".
The physical world as a virtual reality, Brian Whitwor.docxssusera34210
The physical world as a virtual reality, Brian Whitworth
2
The Physical World as a Virtual Reality
Brian Whitworth
Massey University, Albany, Auckland, New Zealand
E-mail: [email protected]
Not only is the universe stranger than we imagine, it is stranger than we can imagine
Sir Arthur Eddington
Abstract
This paper explores the idea that the universe is a virtual reality created by information
processing, and relates this strange idea to the findings of modern physics about the physical
world. The virtual reality concept is familiar to us from online worlds, but our world as a virtual
reality is usually a subject for science fiction rather than science. Yet logically the world could be
an information simulation running on a multi-dimensional space-time screen. Indeed, if the
essence of the universe is information, matter, charge, energy and movement could be aspects of
information, and the many conservation laws could be a single law of information conservation.
If the universe were a virtual reality, its creation at the big bang would no longer be paradoxical,
as every virtual system must be booted up. It is suggested that whether the world is an objective
reality or a virtual reality is a matter for science to resolve. Modern information science can
suggest how core physical properties like space, time, light, matter and movement could derive
from information processing. Such an approach could reconcile relativity and quantum theories,
with the former being how information processing creates space-time, and the latter how it
creates energy and matter.
Key words: Digital physics, virtual reality, information theory
Modern online games show that information processing can create virtual “worlds”, with their
own time, space, entities and objects, e.g. “The Sims”. However that our physical world is a
virtual reality (VR) is normally considered a topic of science fiction, religion or philosophy, not a
theory of physics. Yet the reader is asked to keep an open mind, as one should at least consider a
theory before rejecting it. This paper asks if a world that behaves just like the world we live in
could arise from a VR simulation. It first defines what VR theory entails, asks if it is logically
possible, then considers if it explains known facts better than other theories.
Strange Physics
While virtual reality theory seems strange, so do other current theories of physics, e.g. the many-
worlds view of quantum physics proposes that each quantum choice divides the universe into
parallel universes [1], so everything that can happen does in fact happen somewhere, in an
inconceivable “multi-verse’ of parallel universes. This is a minority view but surprisingly
popular. Even relatively main-stream physics theories are quite strange. Guth’s inflationary model
suggests that our universe is just one of many “bubble universes” produced by the big bang [2].
String theory suggests the physical world could have 9 s ...
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.
1. The document discusses symmetry in physics from the birth of the universe to the quantum scale. It suggests the universe may have been in a state of perfect symmetry after the Big Bang, with an unlimited number of transformations resulting in no change.
2. On a large scale, the universe displays statistical symmetry according to the cosmological principle - the distribution of matter is approximately the same over large distances.
3. On the smallest quantum scale, quantum entanglement demonstrates symmetry as linked properties like spin remain connected between particles regardless of distance, showing non-local effects.
The document discusses several scientific theories related to the origin and evolution of the universe:
1) Relativity Theory proposed by Einstein in 1916 that proved the universe was continuously expanding from a beginning point, known as the Big Bang.
2) The Big Bang Theory, first proposed by Lemaitre in 1927, that the universe began in an extremely hot and dense state around 13.8 billion years ago.
3) The Steady State Theory, an alternative to the Big Bang proposed in 1948, that the universe has always existed and matter is continuously created as it expands.
4) In 1965, scientists discovered Cosmic Microwave Radiation, evidence Lemaitre had predicted in support of the Big
The document discusses theories of parallel universes and the multiverse. It provides background on the multiverse theory, which proposes that our universe is one of many, and explains parallel universes as separate universes that exist independently. The document also covers key concepts from quantum mechanics that provide theoretical support for parallel universes, such as superposition, entanglement, and the collapse of the wave function during measurement. String theory is discussed as another framework that implies the existence of parallel universes defined by different physical laws.
1) The document discusses the collapse of atheism in the 20th century across various fields such as science, philosophy, and politics.
2) Discoveries in fields like astronomy, physics, and biology revealed delicate balances and complex designs that pointed to a Creator rather than accidental formation.
3) Previously influential atheist ideas in fields like psychology and communism were also shown to be flawed or harmful by scientific and sociological advances.
The document discusses the oscillating universe theory and multiverse theory. The oscillating universe theory proposes that the universe expands indefinitely from a Big Bang but will eventually stop and collapse in a Big Crunch, leading to another Big Bang and expansion. This would repeat in a continuous cycle. The multiverse theory suggests that our universe is one of many parallel universes that exist simultaneously. There are several hypotheses for how multiple universes could exist, such as through eternal inflation, bubble universes forming from pockets of inflated space, or as mathematically possible structures. While not proven, the multiverse theory remains an area of speculation among physicists.
1) Stephen Hawking summarized his 1980 lecture where he discussed the progress made in theoretical physics over the previous century and questioned if a complete unified theory could be found by the end of the 20th century.
2) In the 1960s, four fundamental forces were known - gravity, electromagnetism, and the strong and weak nuclear forces. Developments in the 1960s and 1970s unified electromagnetism and the weak force, though gravity remained separate.
3) Hawking proposes that like maps of the Earth's curved surface, there may be multiple overlapping theories needed to describe physics in all situations, rather than one single unified theory, though progress continues to be made theoretically through proposals
The document discusses and compares creationism and evolution on key questions like human origins. It argues that the big bang theory and evolutionary explanations are inadequate, missing essential pieces like origins, mechanisms for star and life formation. Creationism is presented as a more scientifically sound view, answering questions like human worth and purpose that evolution cannot.
This document summarizes a talk given by Jack Sarfatti on the topic of how the future may affect the past. Some of the key points discussed include:
1) Theories that attempt to unify general relativity and quantum mechanics suggest that time travel to the past may be possible through wormholes.
2) Quantum experiments have shown that measurements performed in the future can influence the present, raising questions about whether the universe has a predetermined destiny.
3) A post-quantum view incorporates the idea that future events contribute causal influences on present ones, with the past and future interacting at the present moment. This perspective suggests retrocausality, or the idea that the future affects the past.
This document provides an introduction to the concept of atoms in Islam and discusses historical understandings of their nature. It begins by citing Quranic verses indicating that water predated the creation of heaven and earth. Early Islamic scholars like Ibn Taymiyyah affirmed this based on hadith. The document then discusses modern fictional depictions of transforming water into food and considers whether such ideas could reflect deeper truths about the nature of atoms. It raises questions about atomic structure and mechanics that remain mysteries. The document advocates the need for an Islamic scientific revolution to develop independent scientific and technological foundations.
The History of the Universe in 1000 Words or Less: The origin and fate of the...Manjunath.R -
This book is an insightful, understandable, and contemporary perspective on the largest scientific mysteries and provides insight into complex universe-related concerns. The book provides answers to questions about what makes up the majority of the universe, what existed prior to the Big Bang and what exists outside of our universe, whether time always moves forward, whether the universe is infinite or constrained by physical laws, the size of space, and the mass of the universe. This book takes us on an incredible journey through the past, present, and future as well as through physics, astronomy, and mathematics. It demystifies for laymen concepts like antimatter, quarks, black holes, dark energy, and the big bang and completely changes how we view the universe and its fundamental truths.
There are a number of problems with the Big Bang theory. It ought to be pointed out, at this point, that it is not only creationists who have problems with the Big Bang theory. The theory is not universally accepted. For example, the physicist Eric Lerner has described himself as a Big Bang heretic, and has written a book and a website on the subject.
One very large problem with the theory is its inability to determine where the singularity came from.
This document discusses the historical conflict between science and religion. While science is based on empirical evidence and measurement, religion is based solely on faith. The conflict intensified in the 16th century when the Catholic Church opposed scientific advances that questioned religious dogma. Some key points of divergence are how the universe began - religion says it was created by God, while science points to the Big Bang. Quantum physics now provides natural explanations for phenomena that were previously attributed to God by religion. However, quantum physics also needs to explain the existence of natural laws themselves to fully resolve the conflict between science and religion.
This document provides a translator's introduction and translations of three texts by Martin Heidegger: "What is Metaphysics?" (1929), a postscript to that work from 1949, and an introduction Heidegger wrote for the lecture in 1949 called "Getting to the Bottom of Metaphysics." The introduction discusses translating Heidegger into English and presents the three texts in chronological order of their composition rather than logical order. It explores Heidegger's use of language and ambiguity in addressing fundamental questions about the nature and ground of metaphysics.
1
Paolo Parrini
La scienza come ragione pensante1
Dice Heidegger alla fine del saggio del 1943 dedicato a “La parola di Nietzsche „Dio è
morto‟”: “Il folle [ossia chi proclama la morte di Dio] … è colui che cerca Dio gridando „Dio‟ a
gran voce. Forse un pensante ha realmente gridato qui de profundis? E l‟orecchio del nostro
pensiero? Il grido continuerà a non essere udito finché non si inizierà a pensare. Ma il pensiero
inizierà solo quando avremo esperito che la ragione, glorificata da secoli, è la più accanita
avversaria del pensiero” ([2: vol. 5, p. 267 = p. 246 sg.] = [6, p. 315 sg.]; cfr. [5, p. 245 sg.]).
Compare in queste parole, in maniera particolarmente nitida, una contrapposizione fra
pensiero e ragione che, in vario modo, caratterizza l‟itinerario intellettuale di Heidegger ed acquista
maggiore forza dopo la svolta avvenuta negli anni immediatamente successivi al quinquennio 1927-
1932 - un quinquennio di importanza cruciale in cui si collocano, in rapida successione, la
pubblicazione di Essere e tempo e di Kant e il problema della metafisica (rispettivamente 1927 e
1929), l‟ormai famoso incontro di Davos con Cassirer e Carnap (1929) e l'attacco mosso dallo
stesso Carnap alla filosofia heideggeriana nel saggio Il superamento della metafisica attraverso
l’analisi logica del linguaggio (1932). La contrapposizione vede, da un lato, un pensiero pensante,
che sembra essere appannaggio della filosofia speculativa e, dall‟altro, una ragione che sembra
esaurire l‟attività intellettuale della scienza e della razionalità scientifica, confinate entrambe
nell‟ambito algoritmico o calcolistico delle procedure formali e astratte della logica, della
matematica e delle discipline esatte in generale. È da tale antitesi che maturano le considerazioni
heideggeriane sulla scienza e sulla tecnica esposte nelle lezioni dei primi anni Cinquanta su Che
cosa significa pensare, lezioni nelle quali compare la famosa (e per alcuni famigerata) frase che “la
scienza non pensa” ([2: vol. 8, p. 9] = [7, p. 41]).
È stato osservato che, esprimendo questo giudizio, Heidegger intendeva non tanto criticare la
scienza, quanto piuttosto indicare e circoscrivere l‟ambito in cui essa consapevolmente e
metodicamente si muove. Per il filosofo tedesco, cioè, sarebbe la scienza stessa a porsi il compito di
indagare qualcosa che essa assume come oggetto senza metterlo in questione come tale. La fisica,
per esempio, si occuperebbe a livello ontico della natura di certi enti (o essenti), ma non si porrebbe
la questione ontologica del modo d‟essere che compete a quegli enti e che va loro riconosciuto. La
1 Lectio magistralis tenuta a Firenze il 15 Novembre 2008, nella Sala Gonfalone del Consiglio Regionale della
Toscana, in occasione della consegna del Premio Giulio Preti 2008. Il testo è apparso nel volume Pianeta Galileo
2008, a cura di Alberto Peruzzi, Centro Stampa del Consiglio Regionale della Toscana, Firenze, 2009, pp. 235-242.
2
scienza dunque non pensa, perché il compito peculiare del pensiero sarebbe proprio quello di
andare al di là del procedere metodico sia della scienza in generale sia di qualunque disciplina
particolare per portare alla luce e mettere in questione i presupposti, accettati per lo più come ovvi e
scontati, che ne stanno alla base.
Può essere superfluo precisare che chi vi parla, e che ha avuto l‟onore di ricevere il premio
intitolato al suo maestro Giulio Preti, non può che muoversi in un orizzonte di idee assai diverso da
quello heideggeriano. Ma proprio la lezione di Preti invita ad assumere nei confronti del filosofo
Heidegger (e sottolineo la parola “filosofo” per indicare che non intendo parlare dell‟uomo
Heidegger e, tanto meno, del rettore Heidegger!) una posizione più cauta e in qualche modo più
articolata di quella che in genere è stata presa, soprattutto da noi, tanto dai suoi detrattori quanto dai
suoi estimatori. Io credo certamente - come risulterà ch
1. Article
"Big Bang Cosmology, Quantum Tunneling from Nothing, and Creation"
William E. Carroll
Laval théologique et philosophique, vol. 44, n° 1, 1988, p. 59-75.
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2. Laval théologique et philosophique, 44,1 (février 1988)
BIG BANG COSMOLOGY, QUANTUM
TUNNELING FROM NOTHING,
AND CREATION
William E. CARROLL
RÉSUMÉ. — Certaine recherche récente en cosmologie tente d'expliquer le «Big
Bang » lui-même, en s'appuyant sur des aperçus issus de la physique des particules.
D'après certains physiciens, c'est l'effet tunnel quantique (quantum tunneling ) à
partir de rien, concept utilisé pour rendre compte de l'émergence d'un vide de
particules subatomiques, qui peut fournir une explication cohérente de la « création »
de l'univers à partir de « rien ». Dans l'examen de ce qui semble être les implications
théologiques et philosophiques de la nouvelle physique, nous devons pourtant
faire attention aux différents sens que peuvent avoir des expressions telles que
«rien» et «origine de l'univers», ainsi qu'à la distinction entre création et
changement. Ilfaut aussi se rappeler que la création est un concept métaphysique
et théologique qui, comme tel, se trouve au delà du domaine des sciences
naturelles.
SUM MA RY. — Recent work in Big Bang Cosmology employs insights from particle
physics in an attempt to explain the Big Bang itself. Some physicists argue that
the notion of "quantum tunneling from nothing, " which accounts for the
emergence of subatomic particles from a vacuum, can provide a coherent
explanation of the "creation" of the universe out of "nothing. "In examining the
apparent theological and philosophical implications of the new physics, we must
be careful to understand the different senses of "nothing" and "origin of the
universe, "as well as the distinction between creation and change. Furthermore,
creation is a metaphysical and a theological concept and, as such, is beyond the
realm of the natural sciences.
" T HAD A VISION of a flash of universe appearing from nothing, appearing as a
A result of the laws of physics. I felt a chill of awe and exhilaration like I have not felt
before or since." The vision belongs to Professor Edward Tryon of the Department of
59
3. WILLIAM E. CARROLL
Physics and Astronomy, Hunter College of the City University of New York.1 In a
1973 issue of Nature, he writes : "In my model, I assume that our Universe did indeed
appear from nowhere... Contrary to widespread belief, such an event need not have
violated any of the conventional laws of physics." 2 The medieval alchemist who
dreamed of changing base metals into gold seems sane in comparison to the contemporary
physicist who speaks of getting everything from nothing.
How could such a "flash of universe" have appeared ? Quantum electrodynamics
affirms that an electron, positron, and photon occasionally "emerge spontaneously"
from a "perfect vacuum." And when this spontaneous generation occurs, "the three
particles exist for a brief time, and then annihilate each other, leaving no trace
behind." Such a spontaneous, temporary emergence of particles from a vacuum is
called a "vacuum fluctuation," and is, according to Tryon, "utterly commonplace in
quantum field theory." It seems that, as the authors of a 1979 article in the Scientific
American observe, vacuums are full of all sorts of things called "virtual particles." 3
1. As quoted in The Globe and Mail (Toronto), 21 January 1985.
2. Nature, Vol. 246, 14 December 1973, p. 396.
3. Lewis P. FULCHER, Johann RAFFI.SKI, and Abraham KLEIN, "The Decay of the Vacuum," in Scientific
American, December 1979, Vol. 241, No. 6, pp. 150-159. The authors use the term "virtual particles"
to distinguish them from "real particles." To say that vacuums are full of "virtual particles" is a way to
express a characteristic feature of the quantum mechanical explanation of "whatever is left in a region
of space when it has been emptied of everything that can be removed by experimental means " When all
such matter has been removed, the remaining space is not empty ; it remains "filled with electromagnetic
radiation." See Timothy H. BOYER, "The Classical Vacuum," in Scientific American, August 1985,
p. 70. Such fluctuating electromagnetic waves constitute an inherent feature of the vacuum, and to say
that a vacuum is full of "virtual particles" is to affirm that from these fluctuating waves subatomic
particles "pop" into existence.
In "Quantum Gravity" in Scientific American of December 1983 (pp. 112-129), Bryce DEWITT
observes : "A true vacuum is defined as a state of thermal equilibrium at a temperature of absolute zero.
In quantum gravity such a vacuum can exist only if the curvature [of space] is independent of time.
When the curvature is time-dependent, particles can appear simultaneously in the vacuum (with the
result, of course, that it is no longer a vacuum)... The particles generated by time-varying curvature
appear randomly. It is not possible to predict in advance exactly where or when a given particle will be
born. One can, however, calculate the statistical distribution of the particles'energy and momentum.
Particle production is greatest where the curvature is greatest and changing most rapidly. It was
probably very large in the big bang and could have had a major effect on the dynamics of the universe in
its earliest moments. It is not implausible that particles created in this way could account for all the
matter in the universe ! Attempts to calculate big-bang particle production were begun... a decade ago...
Although several of the results are suggestive, none is definitive. Moreover, a major question hangs
over the effort : What does one choose for the initial quantum state at the instant of the big bang ? Here
the physicist must play God. None of the proposals made so far seems uniquely compelling. " (pp. 118-
119)
Even DeWitt's "true vacuum" is quite different from the void, the existence of which, Aristotle and
Aquinas would deny. DEWITT observes: "In classical physics flat, empty space-time is called the
vacuum. The classical vacuum is featureless. In quantum physics a much more complex entity, with a
rich structure, is given the name vacuum. Its structure arises from the existence in it of nonvanishing
free fields, that is, fields far from their sources." (p. 115)
Heinz R. PAGELS observes: "According to modern theory, a vacuum is not exactly nothing but is
teeming with quantum particles that fluctuate between being and nothingness. These tiny particles can
come into existence for a fraction of a second before they annihilate each other, leaving nothing behind.
A vacuum in that sense is like the surface of an ocean. Up close it is churning with waves, but from a
longer distance such as from a jet plane, it appears smooth and placid. Similarly, any vacuum examined
close up with the proper instruments is seen to be churning with tiny particles.""Before the Big Bang,"
Natural History, 92 (April 1983), p. 26.
60
4. BIG BANG COSMOLOGY
Tryon concluded : "If it is true that our Universe has a zero net value for all conserved
quantities, then it may simply be a fluctuation of the vacuum, the vacuum of some
larger space in which our Universe is imbedded. In answer to the question of why it
happened, I offer the modest proposal that our Universe is simply one of those things
which happens from time to time." 4 Or, as Professor Alan Guth of MIT remarked in
1983 : "It is often said that there is no such thing as a free lunch. The universe, however,
is a free lunch." 5 What is important for the subject of this paper is not so much the
accuracy of the details of these particular claims, but rather, what appear to be the
philosophical and theological implications of the new physics.
We live in the aftermath of a giant explosion, or perhaps it might be more
accurate to say that we live in the midst of a giant explosion : an explosion which
commenced between 15 and 20 billion years ago, and from which our universe has
been expanding ever since. Scientists dispute whether the forces generated in that
cosmic Big Bang are so powerful that the universe will continue to expand until it dies
a cold and lonely death, or whether the amount of stuff in the universe is sufficiently
large so that eventually gravitational attraction will succeed first in stopping the
expansion and then in reducing the universe to a small, hot cosmis mass. The destiny
of the universe seems to be either ice or fire !
Most physicists refer to the Big Bang as a "singularity," that is, an ultimate
boundary or edge, a "state of infinite density" where spacetime has ceased. Thus, it
represents an outer limit of what we can know about the universe. Since all physical
theories are formulated in the context of space and time, it would not be possible to
speculate, at least in the natural sciences, about conditions "before" or "beyond" these
categories.6 But it is precisely such speculation which has intrigued some contemporary
The vacuum, according to quantum mechanics, is a system like any other system, and some
cosmologists, arguing that every system will proceed toward a state of lowest possible energy, think that
the energy in the universe at the moment of the Big Bang was less than the state before. In the words of
Frank WILCZF.K : "Perhaps the reason that there is something instead of nothing is that nothing is
unstable." Quoted in James TREFIL, The Moment of Creation (New York : Macmillan, 1983), pp. 205-
6.
4. Nature, Vol. 246, op. cit., p. 397.
5. A. H. GUTH, "Speculations on the Origin of the Matter, Energy, and Entropy of the Universe," in
Asymptotic Realms of Physics : A Festschrift in Honor of Francis Low, ed. by A. H. Guth, K. Huang,
and R. L. Jaffe, (MIT Press, 1983), p. 215.
6. Paul DAVIES, God and the New Physics (New York: Simon and Schuster, 1983), pp. 18-19, p. 55.
Steven WEINBERG in The First Three Minutes (New York : Basic Books, 1977) and James TREFIL in The
Moment of Creation, op. cit. are quick to point out the highly speculative nature of all theories about
the very early existence of the universe. Davies, however, does remark that "a singularity is the nearest
thing that science has found to a supernatural agent."(pp. 55-56) And he also notes that "an example of
a singularity is the infinitely dense, infinitely compact state that marked the beginning of the big bang."
Davies would be advised to adopt what Roger Penrose and Stephen Hawking call the "principle of
ignorance," that is, that "singularity is the ultimate unknowable, and therefore should be totally devoid
of information." See: S. W. HAWKING, "Breakdown of a Predictability in Gravitational Collapse,"
Physical Review D, 14(1976), p. 2460. Penrose and Hawking, using elaborate mathematical arguments,
contend that when gravity is strong enough singularities are unavoidable. This is the source of the view
that the universe comes from a mathematical point. DAVIES observes : "These bizarre ideas [with
respect to 'singularity'] can only be fully grasped by appeal to mathematics." (p. 19) There seems to be
some confusion here between a mathematical and a physical analysis of the universe. And, as we shall
see, even Trefil, despite his cautions, uses terms such as "nothing" and "creation" with inadequate
precision. See footnote 12.
61
5. WILLIAM E. CARROLL
cosmologists who have offered refinements in Tryon's original proposal concerning a
physical explanation of the universe's emergence from nothing. In a 1983 article
Professor Alexander Vilenkin of Tufts University argues for "a new version of the
inflationary scenario in which the Universe is spontaneously created from nothing[his
italics]."7 Following on the work of Alan Guth — who is credited with the "inflationary
model" of an expanding universe from a primal Big Bang — Vilenkin describes "the
birth of the inflationary universe by quantum tunneling from nothing." 8 "Nothing,"
according to Vilenkin, is "a state with no classical space-time... the realm of unrestrained
quantum gravity ; it is a rather bizarre state in which all our basic notions of space,
time, energy, entropy, etc., lose their meaning." 9
Vilenkin, Guth, and others base their variation in the Big Bang theory on
extrapolations from high energy physics. Today physicists describe our universe in
terms of four fundamental forces [the strong, the weak, gravity, and the electro-
magnetic] and twelve elementary sub-atomic particles [six leptons and six quarks]. 10
These forces and particles are, however, "low temperature phenomena." As a result of
evidence from background micro-wave radiation, physicists estimate the present
temperature of the universe to be 2.7 degrees Kelvin (and getting colder). At the
temperatures estimated at the time of the Big Bang itself, that is, temperatures around
1032 degrees Kelvin, all the forces of nature existed in a single, undifferentiated
superforce, and all the now disparate sub-atomic particles had yet not acquired
distinct identities. A fundamental transformation occurred in our very young universe,
long before it was even one second old : in fact when it was about 10 ~35 second old. The
rapid "supercooling" of the universe, a universe at the time but the size of a softball,
produced a tremendous amount of energy, some of which condensed into matter.
For those cosmologists unwilling to accept an unexplained Big Bang, or an
explanation which seemed to them to require a supernatural agent, this new variation
of the Big Bang theory is welcome. This new account of the very early history of the
universe offers a resolution to what has been a troublesome problem for any one who
proposed that the universe could emerge from some kind of cosmic nothingness. And
this problem concerns the superabundance of matter to anti-matter in the universe.
Laboratory experiments, ever since the discovery of the positron [i.e., the anti-
electron] in 1932, seem to indicate that high energy collisions in particle accelerators
produce equal quantities of particles and anti-particles Yet, in our immediate world
we almost never encounter anti-particles. If the entire universe contains an overwhelming
preponderance of matter to anti-matter, was it always thus ? If not, that is, if there were
7. Physical Review D, Vol. 27, No. 12, 15 June 1983, p. 2848.
8. Ibid., p. 2849.
9. Ibid., p. 2851.
10. Recently there has been speculation concerning a fifth fundamental force; see: Physical Review
Letters, 6 January 1986.
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6. BIG BANG COSMOLOGY
an original equilibrium state, how did the present asymmetry come about ? x x Tryon
thought that he could explain that the universe "did... appear from nowhere" and that
such an event "need not have violated any of the conventional laws of physics." The
"conventional laws of physics" in this instance are those which concern the conservation
of mass and energy : laws which, seemingly, would be violated were we to affirm that
the universe came from nothing. Objections to Tryon's attempt to account for the
spontaneous emergence of the universe from nowhere, while at the same time
preserving the conservation laws, seemed irrefutable.
It is precisely here that the "inflationary universe" proposed by Guth and
Vilenkin is so important : first there is a primal Big Bang, a "quantum tunneling from
nothing," and then, after a brief phase of "runaway exponential expansion," the
energy accumulated would at the termination of this phase become converted into
matter and radiation, and the universe would then proceed to develop more or less as
we have come to understand it. Paul Davies, the British physicist, who has written
widely on recent discoveries in particle physics and their philosophical and theological
implications, notes that the theory of the "inflationary universe" accounts for the
emergence "out of nothingness" of both fundamental particles and spacetime itself "as
the result of a causeless quantum transition." 12 And the theory is also consistent with
11. Antiparticles are discrete quantities which have the same magnitude but opposite charge from
corresponding particles: e.g., anti-electrons, anti-neutrinos, and the like. See Frank WILCZEK, "The
Cosmic Asymmetry between Matter and Antimatter," in Scientific American, December 1980,
Vol. 243, No. 6, pp. 82-90. Wilczek thinks that in the extremely dense, hot universe of the big bang
there were equal amounts of matter and antimatter, but from 10~35 second after the big bang there has
been more matter, (p. 82) A good summary of the problems of accounting for such an asymmetry —
especially as it concerns perturbations in the very early history of the universe — can be found in
M. S. LONGAIR, "The Universe — present, past, and future," Contemporary Physics, 1986, Vol. 27,
No. 4, pp. 325-43.
12. God and the New Physics, p. 215. When Davies speaks of a "causeless quantum transition," he is using
the term "cause" to refer to a temporal succession of predictable events. There is a great deal of
confusion in the philosophical interpretation of quantum mechanics : especially with respect to the
meaning of Heisenberg's "relation of uncertainty." It is one thing to affirm that we are not able to
provide a precise mathematical measure of both the velocity and the position of a subatomic particle. It
is quite another thing either to deny the objective reality of the particle or to contend that there is a
realm of "causeless" effects. We might not be able to predict certain events ; this does not mean that
these events have no cause. For a well-argued analysis of this question, see Stanley JAKI, "Chance or
Reality : Interaction in Nature Versus Measurement in Physics," in Yearbook of the Research Center
for Greek Philosophy at the Academy of Athens, Nos. 10-11, 1980-1981.
DE WITT observes, in the December 1983 article cited in footnote 5: "A quantized spacetime is one
whose causal structure is fluctuating and uncertain. At Planckian dimensions the very distinction
between past and future becomes blurred. By analogy with the phenomenon of tunneling in atomic
systems, which allows an electron to pass through an energy barrier it cannot climb over, one must
expect processes that are not allowed in Einstein's classical theory, including faster-than-light travel
over Planckian distances." In the summary introduction to his article, DEWITT, noting that a
gravitational field is a curvature of spacetime and that the quantum world "is never still," remarks : "In
a universe governed by quantum gravity the curvature of spacetime and even its structure would be
subject to fluctuations. Indeed, it is possible that the sequence of events in the world and the meaning of
past and future would be susceptible to change." art. cit., p. 126.
Planckian units are far removed from everyday physics. Planck's unit of length is 1.61 times 10-35
centimeters : which is 21 powers of 10 smaller than the diameter of an atomic nucleus. His unit of time is
5.36 times 10 44 second. DeWitt reminds us that to probe time and distances of such scales, using
instruments built with present technology, would require a particle accelerator the size of the galaxy,
(p. 126)
63
7. WILLIAM E. CARROLL
the observed preponderance of matter to anti-matter. Davies summarizes the new
theories in one of his recent books, God and the New Physics (1983) :
In this remarkable scenario, the entire universe simply comes out of nowhere,
completely in accordance with the laws of quantum physics, and creates along the
way all the matter and energy needed to build the universe as we now see it.
And in a more grandiose vein, he remarks :
Some physicists, inspired by the simplicity of nature's fundamental laws, have
argued that perhaps the ultimate law (in this case the superforce [produced in the
Big Bang]) has a mathematical structure which is uniquely defined as the only
logically consistent physical principle. That is to say, physics is proclaimed
"necessary" in the same way that God is proclaimed necessary by theologians.
Should we then conclude that God is physics? 13
Cosmological theories often appear to address topics that are also the subject of
religious belief. The explanation of the origin of the universe is surely such a topic.
Indeed, the doctrine of creation is one of the central concepts of the Western
theological tradition, and in understanding what creation is theologians have used
arguments based on the natural sciences. But the natural sciences have also served as a
reservoir of ideas for those thinkers who denied the reality or intelligibility of creation
from nothing.
And, in fact, these recent reflections in the new physics on the "state" of "things"
"before" the Big Bang would seem to offer encouragement both to those who affirm
the traditional Christian doctrine of "creation from nothing" as well as to those who
see no need to appeal to God to explain the origin of the universe. The latter are
reminiscent of Laplace who, when Napoleon asked him about the role of God in his
cosmology, was alleged to have replied that he had no need for such a hypothesis.
These new cosmological theories deny the existence even of a mechanistic God lurking
"behind" the Big Bang: a God who pulls the trigger, so to speak, and brings the
universe into existence through some giant explosion. As we have seen, Tryon himself
observed that the laws of physics are fully adequate to account for the origin of our
universe.
On the contrary, some believers who have been encouraged to embrace the Big
Bang explanation of the origin of the universe as consistent with or as a confirmation
To investigate occurrences earlier than 10~43 second after the Big Bang cosmologists need to know the
effects of quantum mechanics on the force of gravity. James TREFIL observes that if a quantum
mechanical theory of gravitation were developed "we would be able to push our knowledge of the
history of the early universe beyond the Planck time to the moment of creation itself. The first 10 43
second interval could be very interesting, involving physical processes never seen in the universe since
that time." TREFIL does admit that the "ultimate origin of the universe" may be beyond the explanatory
categories of physics. "Nevertheless, it does seem to be a bit disappointing to have come so far in our
study of creation only to be brought up short on the verge of solving the most interesting problem of
all... Although the creation of the universe may involve a process we have never seen (and never can
see), let us assume that the laws of nature that we have discovered can be used to think about it." The
Moment of Creation, pp. 197, 204, 205. Note that Trefil identifies "creation" as a "process," i.e., as a
kind of change.
13. Ibid., p. 216: "... the world of quantum physics routinely produces something for nothing."; and p. 55.
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8. BIG BANG COSMOLOGY
of Christian revelation ,4 may be further seduced into thinking that the "creation from
nothing" to which Vilenkin and others refer adds scientific proof — or the possibility
of scientific proof and, hence, a certain rational respectability — to one of the central
tenets of Christianity. We need, however, to be very careful in evaluating the claims of
any cosmological theory about the origin of the universe : whether we think we find in
it evidence for the affirmation, or for the denial, of the existence of God. On the one
hand there is the danger of a false notion of the incompatibility between religion and
science ; and on the other hand there is the danger of a simplistic misunderstanding of
the complementarity between religion and science. The discussion of these and related
questions is pervaded by equivocations and faulty logic, and it occurs in the midst of
14. The second law of thermodynamics affirms the irreversibility of cosmic processes and thus suggests a
direction to all transformations in the universe. The discovery of change in the deepest recesses of the
subatomic world offers further evidence for the existence of an immutable God : the argument proceeds
from the fact of mutability in things to the necessity of an immutable Being.
Pope Pius XII, in 1951, in an address to the Pontifical Academy of Sciences commented on what he
considered to be the convergence between modern science and Christian theology: "...with the
expanding and deepening of the field of human experiments, the vestiges of the Eternal One are
discernible in the visible world in ever more striking and clearer light." The Pope indicated that the
ultimate origin of the matter of the universe is outside the domain of the natural sciences. Nevertheless,
he added :
"It is undeniable that when a mind enlightened and enriched with modern scientific knowledge weighs
this problem [the ultimate origin of matter] calmly, it feels drawn to break through the circle of
completely independent or autochthonous matter, whether uncreated or self-created, and to assent to a
creating Spirit. With the same clear and critical look with which it examines and passes judgment on
facts, it perceives and recognizes the work of creative omnipotence, whose power, set in motion by the
mighty 'Fiat' pronounced billions of years ago by the Creating Spirit, spread out over the universe,
calling into existence with a gesture of generous love matter bursting with energy. In fact, it would seem
that present-day science, with one sweeping step back across millions of centuries, has succeeded in
bearing witness to that primordial 'Fiat lux'..."
"The farther back we go [in time], the more matter presents itself as always more enriched with free
energy, and as a theater of vast cosmic disturbances. Thus everything seems to indicate that the material
universe had in finite times a mighty beginning, provided as it was with an indescribably vast
abundance of energy reserves, in virtue of which, at first rapidly and then with increasing slowness, it
evolved into its present state."
Sir Edmund WHITTAKER, whom the Pope quoted approvingly, wrote : "These different calculations [of
modern cosmology] point to the conclusion that there was a time, some nine or ten billion years ago,
prior to which the cosmos, if it existed, existed in a form totally different from anything we know, and
this form constitutes the very last limit of science. We refer to it perhaps not improperly as creation. It
provides a unifying background, suggested by geological evidence, for that explanation of the world
according to which every organism on earth had a beginning in time. Were the conclusion to be
confirmed by future research, it might well be considered as the most outstanding discovery of our
times, since it represents a fundamental change in the scientific conception of the universe, similar to the
one brought about four centuries ago by Copernicus." {Space and Spirit [1946], pp. 118-119)
The quotations above are found in: The Major Addresses of Pope Pius XII, Vol. 1, edited by
Vincent A. Yzermans. (St. Paul: The North Central Publishing Company, 1961), pp. 178, 186-187,
188.
It is fascinating to note the reaction of Soviet scientists in the 1950's and 1960's to cosmological
discussions. V. I. SVIDERSKI, in 1956, rejected both the Big Bang and the steady state theories, and
noted that the former was an "unscientific popish conclusion." One of the leading Soviet astrophysicists,
V. A. AMBARTSUMIAN, declared in 1959 that the advances of science "irrefutably attest to the truth and
fruitfulness of dialectical materialism" as well as "convincingly demonstrating the complete unsoundness
of idealism and agnosticism, and the reactionariness of the religious world-view." Quoted in: Ernan
MCMULLIN, "How Should Cosmology Relate to Theology?" in The Sciences and Theology in the
Twentieth Century, edited by A. R. Peacocke, (London: Oriel, 1981), pp. 36-37. See also, Loren
GRAHAM, Science and Philosophy in the Soviet Union (New York, 1972).
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9. WILLIAM E. CARROLL
generally accepted, but defective, views concerning the relation between religion and
science, faith and reason.
It is commonplace today to refer to two broad categories of explanation
concerning the origin of the universe. The first is that the Bible, and especially Genesis,
contains an adequate explanation of the origin of the universe. In its most extreme
form, this view is that in Genesis there is a straightforward account of God's creation
of everything in the universe, including man. Genesis, thus, offers a sufficient account
not only of the fact of creation, but also the order, mode, and details of creation. Since
the Bible is the unerring word of God, this text must be treated as an infallible guide on
all subjects which it addresses.
The second view is that the modern natural sciences provide the only rational
description of the origin and nature of the universe. Physics, geology, biology,
paleontology, anthropology, astronomy, and the like account for the various changes
which have produced the cosmos as we know it. Indeed, for some, science demonstrates,
or perhaps requires, that the universe be eternal, that is, that it cannot have a
beginning in time. In its most extreme form, the view which finds in the natural
sciences the only acceptable avenue to knowledge about man and his world maintains
that there is a fundamental continuum from matter and energy to man, and, further,
that the "laws of nature" — whether we know them all or not — are sufficient to
answer all our questions about the universe and its origins. Thus, we can see the
attractiveness of the cosmological thesis of "quantum tunneling from nothing" as a
supposedly rational, scientific account of the Big Bang itself.
Both general views ought to be rejected : both are caricatures. One is creationism,
the other is scientism. These so-called "religious" and "scientific" explanations of the
origin of the universe embody misunderstandings of religion and science, and they
tend to confuse, as well, not only the different senses of "origin" and of "nothing," but
also the distinctions between creation and change. The confusion usually entails the
presupposition that there has been and is a necessary hostility between a religious and
a scientific view of the world, an incompatibility between faith and reason.15 The
confusion in discussions concerning the theological implications of the new physics is
evident in the work of Paul Davies. In the preface to God and the New Physics he
observes that modern physics is :
... pointing the way to a new appreciation of man and his place in the universe.
Deep questions of existence — How did the universe begin and how will it end ?
15. The modern locus classicus of this view is A History of the Warfare of Science with Theology in
Christendom (1896) by Andrew DICKSON WHITE. In the first chapter, entitled "From Creation to
Evolution," WHITE writes : "Thus down to a period almost within living memory, it was held, virtually,
'always and everywhere, and by all,' that the universe, as we now see it, was created literally and directly
by the voice or hands of the Almighty, or by both — out of nothing in an instant or in s:x days, or in
both — about four thousand years before the Christian era and for the convenience of the dwellers
upon the earth, which was at the base and foundation of the whole structure." (pp. 13-14, Dover
Paperbacks, 1960) When Newton "had shown throughout the universe, in place of almighty caprice,
all-pervading law," he provided the foundation, according to White, for the theory of evolution to
replace the doctrine of creation.
For a useful corrective to views such as those put forward by White, see E. McM u LI.IN, art. cit., as well
as A. R. PEACOCKE, Creation and the World of Science, (Oxford: Clarendon Press, 1979).
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10. BIG BANG COSMOLOGY
What is matter ? What is life ? What is mind ? — are not new. What is new is that
we may at last be on the verge of answering them. This astonishing prospect stems
from some spectacular recent advances in physical science — not only the new
physics, but its close relative, the new cosmology.
For the first time, a unified description of all creation could be within our grasp.
No scientific problem is more fundamental or more daunting than the puzzle of
how the universe came into being. Could this have happened without any
supernatural input ? Quantum physics seems to provide a loophole to the age-old
assumption that "you can't get something from nothing." Physicists are now
talking about the "self-creating universe": a cosmos that erupts into existence
spontaneously, much as a subnuclear particle sometimes pops out of nowhere in
certain high energy processes. The question of whether the details of this theory
are right or wrong is not so very important. What matters is that it is now possible
to conceive of a scientific explanation for all of creation. Has modern physics
abolished God altogether...?
... I believe that physics is uniquely placed to provide [answers to "the deep
questions of existence"]. It may seem bizarre, but in my opinion science offers a
surer path to God than religion. Right or wrong, the fact that science has actually
advanced to the point where what were formerly religious questions can be
seriously tackled, itself indicates the far-reaching consequences of the new
physics.16
Is such an appeal to the explanatory power of physics convincing ? In fact, must
not the laws or principles of physics exist, in some sense, in order for them to provide
the basis of a "scientific explanation of all of creation" ? We must remember that "laws
of physics" are descriptive statements of what occurs in nature ; in themselves they are
not the causes of what occurs. Thus, if such laws exist prior to the Big Bang, then it
would seem that either there is some physical reality from which the universe came to
be, or these laws exist in the mind of God. In the first case, the explanation would not
be of the universe's coming-into-being from nothing ; in the second, we must appeal to
a creating God.17
An examination of some of the scientific and theological questions concerning
cosmology and creation will enable us to discover the appropriate roles of reason and
faith in discussing the origin of the universe, and, in the process, to begin to
disentangle the web of confusion, terminological and conceptual, which surrounds
this subject.
What is an origin or a beginning ? We need to note at the outset the relative nature
of these terms. An origin is a "from which, "i.e., an origin necessarily entails something
which follows : the beginning of a line, of a journey, of a story, and so forth. An origin
or a beginning is a first, and there are two different senses of what it means to be first : a
qualified sense and an unqualified sense. In order to have an origin in a qualified sense
16. DAVIES, op. cit., pp. vii, viii, and ix.
17. I should like to thank the reviewer of articles for this journal for encouraging me to make this point
explicit. For a recent discussion of some of the deficiencies in Davies' arguments, see William LANE
CRAIG, "God, Creation and Mr Davies," in British Journal for the Philosophy of Science, Vol. 37
(1986), pp. 163-175, especially p. 168.
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11. WILLIAM E. CARROLL
some change has occurred in some thing which has resulted in a new thing or a new
situation having come into existence : a pile of wood as the origin of a desk ; an acorn
as the origin of an oak tree ; paint, canvas, and artist as the different origins of a
painting. An origin in an unqualified sense means a first absolutely, that is, a first
which in no way involves a change in some thing. If it were a change which brought the
new reality into existence then the origin of the new reality would be a first only in a
qualified sense, since there would have been some prior thing which underwent the
change. And the existence of the prior something which underwent the change would
deny to the origin of the new reality the status of being unqualifiedly first. An
unqualified origin does not rule out an agent as the source, in some fundamental sense,
of what comes to be, but it does exclude any other préexistent reality as an origin.
When we ask about the "origin of the universe" we may wish to inquire about a
beginning in a qualified sense or in an unqualified sense. We must be very careful not
to confuse these two quite different senses of origin. The natural sciences study
changing things, and thus they only consider the qualified sense of origin. It is not
possible to get something from nothing : this is a fundamental principle of all of the
natural sciences. Today we often refer to this principle in a more particular form : the
conservation of mass/ energy. Every origin in a qualified sense involves a change, and
every change requires that there be some thing or condition which changes. Modern
cosmological theories, such as the Big Bang theory, are explanations of the origin of
the universe only in a qualified sense. Whether we accept or reject the notion of the Big
Bang, it is an explanation of a change. When Tryon, Vilenkin, Davies, and others
speak of "creation from nothing" they are using the words "creation" and "nothing" in
very loose senses. Vilenkin, himself, admits : "by nothing I mean a state with no
classical space-time."18 This "bizarre state", as Vilenkin calls "nothing," is really
something ! There are different senses of "nothing," and Vilenkin is using one of them,
viz., a qualified sense. A "state with no classical space-time" may be nothing like the
universe of classical space-time, but this pre-Big Bang "state" is not absolutely
nothing. This qualified sense of "nothing" is not the sense of "nothing" which is central
to the Christian theological notion of "creation from nothing", in which "nothing" is
taken in an absolute or unqualified sense.
Creation, as a proper theological concept, refers to the origin of the universe in
the absolute or unqualified senses of origin and of nothing. Such an origin is not,
indeed, cannot involve, a change : otherwise we would be referring to a qualified and
not to an unqualified origin. Can we investigate the origin of the universe in this
unqualified sense? What are the sources of information? Indeed, is it intelligible to
speak of an unqualified origin of all that is ?
First let us consider the role of reason in such an investigation. The natural
sciences, as we have said, have as their subject changing things. Thus they do not
address directly the unqualified origin of all that is. Some thinkers, ancient as well as
contemporary — the most famous among them, Aristotle — concluded that the
universe is eternal, that is, without a beginning in time. A consideration of the reality
18. Physical Review D, op. cit., p. 2851.
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12. BIG BANG COSMOLOGY
of change and of time led Aristotle, for example, to argue that there must always be
change and time.19 Such a view seems to contradict the very notion of creation. And in
the 13th century scholars of the calibre of Albert the Great, Bonaventure, and Thomas
Aquinas labored mightily over the arguments of Aristotle and what they portended
for the Christian belief in creation and especially creation in time. The questions in the
debate over the eternity of the universe are complex, but even if we were to grant that
in fact the universe is eternal this would not involve a denial of creation.20 In other
words, there could be an eternal, created universe. Such was the conclusion of Thomas
Aquinas, and we owe to him, more than to any other, the most profound analysis of
the Christian understanding of creation.
To see how Aquinas could argue that the universe could be without a beginning in
time and yet be created, we need to examine in more detail what an unqualified origin
is. And in this investigation we enter the realm of metaphysics, the rational study of
what it means for things "to be." Notice that we are considering what we can know
through reason alone. And if we recognize the legitimacy of the science of metaphysics,
we must deny that only the natural sciences can provide a rational account of reality.
Consider a spoon. It exists ; it "be's." What is the cause of its existence, of its being?
What it means to be a spoon does not include existence : spoons do not have to exist.
To exist is not part of what it means to be a spoon ; existence is not part of the
definition of a spoon. Clearly the cause of the existence of any spoon, viz., that which
is responsible for the effect which is existence, is not in the spoon. The spoon is not self-
caused. In some sense, those who made the spoon are causes of its existence. But as the
spoon exists, after it has been produced, the continuing effect which is its existence
does not depend directly upon those who made the spoon. Yet the spoon continues to
exist. Existence is an effect and thus must have a cause. The spoon may undergo
several changes, including that change which involves its ceasing to be a spoon. But
whatever the change is, the existence of that which results is itself, in turn, caused to be
in an unqualified sense, that is, it is created. What is true of the spoon is true of the
universe as a whole. And creation, understood philosophically, that is, understood in
the science of metaphysics, is the radical causing of the whole being of whatever is.
Such an unqualified causing or coming-to-be may or may not have a beginning in
time : that is, there is no mutual repugnance in the ideas of what it means to be created
and what it means to have no beginning in time. Left exclusively to itself, that is,
separated from the cause of being, any thing is absolutely nothing. To use the terms of
metaphysics : creation is the primary, unqualified, efficient causing of the being of
everything which exists. Creation is not simply some distant event : it is the on-going
causing of all that is. And we arrive at this understanding of creation through the
rational reflection on what it means "to be."
19. /%s/«VIII:251a8-252a3.
20. See C. VOLLERT, et al., (eds.), On the Eternity of the World [Aquinas, Siger of Brabant, and
Bonaventure] (Marquette University Press, 1964). AQUINAS argues that Aristotle in his Physics has a
demonstration of creation, that is, of the simultaneous causing of the existence of all contingent beings.
Thus, for Aquinas, the God of Aristotle is not only a cause of motion, but also a cause of being (causa
essendi). See: AQUINAS, In VIII Phys., lectio 2. We need to remember, however, that Aristotelian
physics is a more comprehensive science of nature than the modern natural sciences.
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13. WILLIAM E. CARROLL
Even if we were to deny the accuracy of the metaphysical arguments for creation,
or if we were to deny the very existence of metaphysics, we would still be left with the
silence of the modern natural sciences concerning the unqualified origin of the
universe. And if faith speaks in the midst of the silence of reason, there is, at least in
this instance, no hostility between the two. The fundamental error in most discussions
about creation and the natural sciences is to consider creation as a kind of change.
Evolution, whether cosmic or biological, is an explanation of change and is a c oncern,
thus, of the natural sciences. Creation explains the existence of things ; it does not
explain how natural processes function, no matter how large or ancient these
processes are. No theory in the natural sciences can contradict the doctrine of creation,
since what creation accounts for is not a process at all, but a metaphysical dependence
in the order of being.21
What is the role of faith in disclosing the unqualified origin of the universe? Here
we must refer both to Sacred Scripture and to theology. Genesis does speak of the
origin of the universe, but not in a scientific way. The Bible is not a source of scientific
information. It is not written to explain nature, but, rather, to reveal the proper
relation between man and God so that men may be led to salvation. The Bible is an
account of religious and moral truths ; it is not an account of truths in the natural
sciences. As Cardinal Baronius noted in the sixteenth century : the Bible teaches us
how to go to heaven, not how the heavens go. Those scientific arguments or theories
found in the Bible are secondary material used to convey religious and moral truths. 22
These truths are enveloped in language and manifested in examples in such a way that
they are accommodated to human understanding. Great theologians, such as Augustine
in the 4 th century and Aquinas in the 13th century, were well aware that the proper way
to read Scripture included distinguishing between the essential message of the Bible
and the ways in which this message is made accessible to men. As Augustine pointedly
noted : "One does not read in the Gospel that the Lord said : 1 will send to you the Holy
Spirit who will teach you about the course of the sun and the moon. For He willed to
make them Christians, not mathematicians." 23
The opening line of Genesis, "In the beginning, God created the heavens and the
earth," is not easy to interpret. What does "in the beginning" mean? Although the
traditional interpretations take these words to mean that there was a beginning of
time,24 Augustine and Aquinas recognized additional legitimate ways to explain the
text. Aquinas, in particular, affirming that "in the beginning" does mean that the
universe is not eternal, argued that the opening phrase of Genesis can have meanings
in addition to that of a temporal beginning. The Latin, inprincipio, and the Greek, en
21. I should like to acknowledge the insights into the distinctions between creation and change which I have
received from Dr. Steven Baldner of St. Thomas More College, University of Saskatchewan.
22. For the distinction between primary and secondary material in Scripture, see AQUINAS, Summa
Theologiae II-II, q. 2, aa. 5-6.
23. AUGUSTINE, De actis cum Felice Manicheo, I, 10 : quoted in Jerome LANGFORD, Galileo, Science, and
the Church (Ann Arbor, 1971), p. 65.
24. AUGUSTINE, De Genesi adlitteram IV, 34,53-55 ; De civ. Dei IX, 4 ; and AQUINAS, Summa Theologiae
I, q. 46, a. 2.
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arche may be rendered as "in the cause", or "in the source," or "in the principle." The
first line of Genesis may mean, thus, that God created all things in, or through, the
principle, or cause, or source of all things. If we take the first three verses of the Gospel
of John ["In the beginning was the Word..."] as a parallel text, then we may
understand that "in the beginning" in Genesis means that God the Father creates the
universe in and through God the Son.25
Augustine, analyzing the hexameral account in Genesis, was convinced that
creation did not take place over six days. God's creative act was instantaneous, and
the story of the six days reveals analytical distinctions in creation, not a temporal
succession.26 Thomas Aquinas, referring to the debate in which Augustine was
involved concerning the opening of Genesis, remarks :
There are some things that are by their very nature the substance of faith, as to say
of God that He is three and one, and other similar things, about which it is
forbidden for anyone to think otherwise... There are other things that relate to the
faith only incidentally... and, with respect to these, Christian authors have
different opinions, interpreting the Sacred Scripture in various ways. Thus with
respect to the origin of the world, there is one point that is of the substance of faith
[ad substantiam fideipertinet], viz., to know that it began by creation [incepisse
creatum], on which all the authors in question are in agreement. But the manner
and the order according to which creation took place concerns the faith only
incidentally, in so far as it has been recorded in Scripture, and of these things the
aforementioned authors, safeguarding the truth by their various interpretations
have reported different things.27
Elsewhere Aquinas observes :
In discussing questions of this kind [the manner and mode of creation as set forth
in Genesis] two rules are to be observed as Augustine teaches (De gen. adlitt., I,
37). The first is to hold to the truth of Scripture without wavering. The second is
that since Holy Scripture can be explained in a multiplicity of senses, one should
adhere to a particular explanation, only in such measure as to be ready to
abandon it, if it be proved with certainty to be false ; lest Holy Scripture be
exposed to the ridicule of unbelievers, and obstacles be placed to their believing.28
Furthermore, when Augustine and Aquinas speak of the unerring literal sense of
Scripture they are not adhering to what we today would call a "literal" or a
"fundamentalist" interpretation of the text. The literal sense for Aquinas is what the
words signify, but the modes of signification are varied, and one must know how to
read the text. God is the principal author of Scripture and the literal sense is what God
intends the words to signify : an intention which might not be known by the human
25. In IISent. I, 1,6; Summa Theologiae I, q. 46, a. 3 ; and AUGUSTINE, De Genesiadlitt.,1,5,10; 1,6,12.
I am indebted to Professor Baldner for pointing out to me these references, and those in footnote 24.
26. Augustine thought that in the initial act of creation God produced the seeds, the rationes séminales, of
all that has come and will come to be.
27. In II Sent. 12, 1, 2.
28. Summa Theologiae I, q. 68, a. 1.
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15. WILLIAM L. CARROLL
author of the text.29 Since the literal sense involves what God intends, it can only be
made fully clear in faith and through the Church. Aquinas might very well agree with
the clarion call : sola scriptura ! But he would be quick to note that there is no
Scriptura without the Ecclesia. What we may term "literalistic" readings of Genesis
which are often characteristic of "creationist" accounts of the origin of the universe
often involve a too hasty commitment to a particular interpretation of the biblical
text. Or, what is far worse, they may involve a failure to understand the distinction
between the primary purpose of the Bible and the manner in which moral and religious
truths are accommodated to human understanding. Thus, such interpreters in their
zeal to affirm the Bible as the unerring word of God enshrine, as infallible truths,
notions which are not in fact signified by the words of the sacred text. As Augustine
notes, if scientific knowledge precludes what is proposed as an interpretation of a
particular text of Scripture, then this proposed teaching "was never in Holy Scripture
but was an opinion proposed by man in his ignorance." 30
Theologians such as Aquinas, reflecting on revelation and the Church's unders-
tanding of it, developed an elaborate analysis of "creation out of nothing" [creatio ex
nihilo]. Creation is not God's taking nothing and making something out of "it." In
other words, creation is not a change; it is not a mutatio. In faith, the Christian
confesses that everything comes from God. If creation were a change, if God were to
work with some primal, uncreated stuff, then for a Christian to accept such a view of
creation would mean a denial of his confession that God is the sole source of all that is.
Nor is creation to be seen as a kind of emanation, or "bubbling over," of all that is from
God {de Deo]. The Christian believes in a transcendent God, and there must be a
fundamental distinction between Creator and every creature. Every creature is
radically contingent, that is, is radically dependent for its very being upon God's free
creative act. Creation is wholly gratuitous; it is completely an act of God's mercy.
Without His causality no thing could be. In an analysis similar to that of the
metaphysician, the theologian affirms that all things left wholly to themselves, thus
separated from God as Creator, would be nothing. The expression "creation ex nihilo"
captures the truly contingent nature of creatures. The notion of "nothing" here is
theological and metaphysical : it is "nothing" in an unqualified sense, and thus it is not
a concept applicable to the modern natural sciences.31
29. In particular, see Summa Theologiae I, q. 1, a. 10.
30. De Gen. ad litt. I, 38.
31. In a magisterial passage from the commentary on the Sentences of Peter Lombard, Aquinas sets forth
his position on creation. Although it is an early work, Aquinas remains faithful throughout his career to
the principles he enunciates in this text: 1) that creation is known through reason and through
faith ; 2) that creation is not a change and thus "presupposes nothing" in that which is created ;
and 3) that the universe has a beginning in time is an addition to the notion of creation which can only
be known through faith. The passage follows :
"Not only does faith hold that there is creation, but reason also demonstrates it. For it is the case that
everything which is imperfect in some genus, arises from that in which the nature of the genus is found
first and perfectly, as is clear with heat in things hot by fire. Since, however, any thing whatever, and
whatever is in the thing, in some way partakes being and is admixed of imperfection, it must be that
every thing, in its entirety, arises from the first and perfect being. But we say that this is to create, namely
to produce a thing in being according to its whole substance. Hence it is necessary that all things
proceed from the first principle by way of creation.
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16. BIG BANG COSMOLOGY
Following the teaching of the Fourth Lateran Council [1215],32 medieval Catholic
theologians affirmed that creation has a beginning in time, that is, the universe is not
eternal. Aquinas, in refuting Aristotle's arguments for the eternity of the world,
argued that the natural sciences cannot demonstrate that the universe is eternal.
Reason alone, he thought, remains at least open to whether or not the universe has a
beginning in time.33 Thus, on the basis of faith, to believe in a temporal creation does
not entail a conflict between the claims of faith and the claims of science.
The Christian believes that God is the author of all truth. Accordingly, the truths
of science and the truths of faith cannot contradict one another. In the words of the
First Vatican Council [1870]: "... there can never be any real discrepancy between
faith and reason, since the same God who reveals mysteries and infuses faith has
bestowed the light of reason on the human mind, and God cannot deny Himself, nor
can truth ever contradict truth." 34 Apparent contradictions must be the result of
defects in one's theology or in one's science, or in both. In this respect we may note
how a confusion of categories concerning the different senses of origin and of nothing
leads to false conclusions concerning the hostility between religion and science. We
Now it should be shown that two points pertain to the notion of creation. 1) The first is that it
presupposes nothing in the thing that is said to be created. In this regard creation differs from other
changes because : a) generation presupposes a matter which is not generated but (rather) is completed
through the generation, being transformed into the act of a form, whereas b) in the remaining [kinds
of] change there is presupposed a subject which is a complete being. Hence in this way the causality of
that which generates or alters does not extend to all that is found in a thing but (only) to the form which
is brought from potency to act. But the causality of that which creates extends to all that is in the thing.
Thus creation is said to be ex nihilo [out of nothing], because there is nothing that preexists creation as
something not created.
2) The second is that in the thing which is said to be created, the state of not-being is prior to the state of
being — not indeed by a priority of time or duration so as first not to have been and then later to be, but
by a priority of nature such that, if the created thing were left to itself, the state of not-being would result
since the thing has being only by way of a higher cause's pouring it in [ex influentia causae superioris].
For each and every thing, prior to what it does have from another, naturally contains what it does not
have from another. It is by reason of this second point that creation differs from eternal generation : for
in this way it cannot be said that, if the Son of God be left to Himself, He would not have being, since He
receives from the Father that very same being which is the Father's, which is absolute being, not
dependent on anything.
According to these two points creation can be said to be ex nihilo in two ways : 1) in such a way that the
negation [in the nihilo] denies the relatedness of creation to something pre-existent implied by the
preposition "ex," so that creation may be said to be ex nihilo because it is not out of anything pre-
existent. So much for the first point. 2) In pre-existent nothing according to nature, so that creation
can be said to be ex nihilo because the created thing naturally has the condition of not-being prior to
that of being. If these two points suffice for the notion of creation, then creation can be demonstrated ;
and it is in this way that philosophers have posited creation. 3) If, however, we regard a third created
thing to be said to be ex nihilo it must have the condition of not-being prior to that of being even
according to duration since it is temporally after nothingness, then creation cannot be demonstrated ;
nor is it conceded by philosophers but is supposed on faith."
[In II Sent. I, q. I, a. 2]
32. "We firmly believe and simply confess that there is only one true God... one origin of all things [unum
universorum principium] ; Creator of all things, visible and invisible, spiritual and corporeal ; who by
his own omnipotent power from the beginning of time created [ab initio condidit de nihilo'] in the same
way both orders of creation, spiritual and corporeal, that is, the angelic and the earthly..." Fourth
Lateran Council, c. 1.
33. In II Sent., q. 1, a. 5 ; and De aeternitate mundi.
34. Constitutio dogmatica de fide catholica, c. 4.
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17. WILLIAM E.CARROLL
need to be aware as well of claims of a false complementarity based also on confusions
over origin, nothing, creation, and change. Augustine's words on this subject have a
clarity and a force unchanged from the time they were written more than 1 500 years
ago:
Usually, even a non-Christian knows something about the earth, the heavens, and
the other elements of this world, about the motion and orbit of the stars and even
their size and relative positions, about the predictable eclipses of the sun and
moon, the cycles of the years and the seasons, about the kinds of animals, shrubs,
stones, and so forth, and this knowledge he holds to as being certain from reason
and experience. Now, it is a disgraceful and dangerous thing for an infidel to hear
a Christian, presumably giving the meaning of Holy Scripture, talking nonsense
on these topics ; and we should take all means to prevent such an embarrassing
situation, in which people show up vast ignorance in a Christian and laugh it to
scorn. The shame is not so much that an ignorant individual is derided, but that
people outside the household of the faith think our sacred writers held such
opinions, and, to the great loss of those for whose salvation we toil, the writers of
our Scripture are criticized and rejected as unlearned men. If they find a Christian
mistaken in a field which they themselves know well and hear him maintaining his
foolish opinions about our books, how are they going to believe those books in
matters concerning the resurrection of the dead, the hope of eternal life, and the
kingdom of heaven, when they think their pages are full of falsehoods on facts
which they themselves have learnt from experience and the light of reason?
Reckless and incompetent expounders of Holy Scripture bring untold trouble
and sorrow on their wiser brethren when they are caught in one of their
mischievous false opinions and are taken to task by those who are not bound by
the authority of our sacred books. For then, to defend their utterly foolish and
obviously untrue statements, they will try to call upon Holy Scripture for proof
and even recite from memory many passages which they think support their
position, although "they understand neither what they say nor the things about
which they make assertion." (I Tim. 1: 7) 35
The Bible does not address directly the question of the truth or falsity of any
cosmological or evolutionary theory. Certain assertions in cosmology, biology, or any
science may contradict the truths of faith. If these theories do in fact contradict the
truths of faith, then the believer ought to reject them. Scientific theories which deny a
qualitative distinction between non-human and human life, or which advocate an
exclusively materialistic and deterministic account of reality are examples of views
which are incompatible with Christian revelation. Of course, a Christian would have
to affirm that any scientific assertion which does indeed contradict the truths of faith
cannot possibly be true, and thus the inadequacy or falsity of such an assertion would
be demonstrable on scientific grounds. We need to be cautious, however, in making
judgments in this area : for we must understand both the scientific theory and the
content of revelation. And, further, we need to remember that the Bible is not a text
book in the natural sciences. Although Scripture may use arguments which draw upon
scientific material, the apparent truth or falsity of the scientific statements in such
arguments is irrelevant to the religious and moral truths proclaimed in Scripture.
35. De Gen. ad litt. I, 39.
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18. BIG BANG COSMOLOGY
Some popularizers of science, or some scientists themselves, may make exorbitant
claims for what the modern natural sciences can tell us about the origin of the
universe : such exorbitant claims are just that, and they can be shown to be exorbitant
on the basis of reason alone. Our universe may be expanding from a primal Big Bang,
but "primal" must be understood as a qualified sense of first. The Big Bang may be the
"fluctuation of a vacuum," but it ought not to be confused with "creation from
nothing." Such a vacuum is, at best, nothing in a qualified sense ; it is not absolutely
nothing. Fluctuation is a change ; it is not creation. The mechanistic God of some
seventeenth and eighteenth century philosophers may well be eliminated by recent
cosmological theories,36 but not the Christian God who is the creator, ex nihilo, of the
universe.
36. PASCAL'S criticism of Descartes reminds us of such a mechanistic God : "Je ne puis pardonner à
Descartes : il aurait bien voulu, dans toute sa philosophie, pouvoir se passer de Dieu; mais il n'a pu
s'empêcher de lui faire donner une chiquenaude pour mettre le monde en mouvement ; après cela, il n'a
plus que faire de Dieu." Pensée (L. Lafuma, éd.), 1001, (Paris : Éditions du Luxembourg), p. 553.
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