- published: 25 May 2014
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Quantum mechanics (QM -- also known as quantum physics, or quantum theory) is a branch of physics which deals with physical phenomena at nanoscopic scales where the action is on the order of the Planck constant. It departs from classical mechanics primarily at the quantum realm of atomic and subatomic length scales. Quantum mechanics provides a mathematical description of much of the dual particle-like and wave-like behavior and interactions of energy and matter. Quantum mechanics provides a substantially useful framework for many features of the modern periodic table of elements including the behavior of atoms during chemical bonding and has played a significant role in the development of many modern technologies.
In advanced topics of quantum mechanics, some of these behaviors are macroscopic (see macroscopic quantum phenomena) and emerge at only extreme (i.e., very low or very high) energies or temperatures (such as in the use of superconducting magnets). For example, the angular momentum of an electron bound to an atom or molecule is quantized. In contrast, the angular momentum of an unbound electron is not quantized. In the context of quantum mechanics, the wave--particle duality of energy and matter and the uncertainty principle provide a unified view of the behavior of photons, electrons, and other atomic-scale objects.
The mathematical formulations of quantum mechanics are abstract. A mathematical function, the wavefunction, provides information about the probability amplitude of position, momentum, and other physical properties of a particle. Mathematical manipulations of the wavefunction usually involve bra--ket notation which requires an understanding of complex numbers and linear functionals. The wavefunction formulation treats the particle as a quantum harmonic oscillator, and the mathematics is akin to that describing acoustic resonance. Many of the results of quantum mechanics are not easily visualized in terms of classical mechanics. For instance, in a quantum mechanical model the lowest energy state of a system, the ground state, is non-zero as opposed to a more "traditional" ground state with zero kinetic energy (all particles at rest). Instead of a traditional static, unchanging zero energy state, quantum mechanics allows for far more dynamic, chaotic possibilities, according to John Wheeler.
The earliest versions of quantum mechanics were formulated in the first decade of the 20th century. About this time, the atomic theory and the corpuscular theory of light (as updated by Einstein)[1] first came to be widely accepted as scientific fact; these latter theories can be viewed as quantum theories of matter and electromagnetic radiation, respectively. Early quantum theory was significantly reformulated in the mid-1920s by Werner Heisenberg, Max Born and Pascual Jordan, (matrix mechanics); Louis de Broglie and Erwin Schrödinger (wave mechanics); and Wolfgang Pauli and Satyendra Nath Bose (statistics of subatomic particles). Moreover, the Copenhagen interpretation of Niels Bohr became widely accepted. By 1930, quantum mechanics had been further unified and formalized by the work of David Hilbert, Paul Dirac and John von Neumann[2] with a greater emphasis placed on measurement in quantum mechanics, the statistical nature of our knowledge of reality, and philosophical speculation about the role of the observer. Quantum mechanics has since permeated throughout many aspects of 20th-century physics and other disciplines including quantum chemistry, quantum electronics, quantum optics, and quantum information science. Much 19th-century physics has been re-evaluated as the "classical limit" of quantum mechanics and its more advanced developments in terms of quantum field theory, string theory, and speculative quantum gravity theories. https://www.youtube.com/watch?v=ZsVGut7G-dU
Hi Everyone, today we're sharing Quantum Mechanics made simple! This 20 minute explanation covers the basics and should give you a good foundation for understanding the principles of Quantum Mechanics.
TOPICS COVERED:
1). What are atoms made of? - 00:30
2). What is a particle? - 00:30
3). The Standard Model of Elementary Particles explained - 1:40
4). Higgs Field and Higgs Boson explained - 2:34
5). Quantum Leap explained - 3:07
6). Wave Particle duality explained - the Double slit experiment - 3:50
7). Schrödinger's equation explained - the "probability wave" - 6:09
7). How the act of measurement collapses a particle's wave function - 6:43
9). The Superposition Principle explained - 7:10
10). Schrödinger's cat explained - 8:19
11). Are particle's time traveling in the Double slit experiment? - 9:39
12). Many World's theory (Parallel universe's) explained - 12:23
13). Quantum Entanglement explained - 13:37
14). Spooky Action at a Distance explained - 14:09
15). Quantum Mechanics vs Einstein's explanation for Spooky action at a Distance (Bell's Theorem) - 15:40
16). Quantum Tunneling explained - 16:15
17). How the Sun Burns using Quantum Tunneling explained - 16:47
18). The Quantum Computer explained - 17:56
19). Quantum Teleportation explained - 18:24
20). Quantum Mechanics and General Relativity incompatibility explained. String theory - a possible theory of everything - introduced - 21:02
SOURCES:
Hunt for the Higgs - Horizon BBC documentary
Parallel Universes - Horizon BBC documentary
Quantum Mechanics - NOVA documentary, presented by Brian Greene
Inexplicable Universe - The Great Courses - presented by Neil deGrasse Tyson
- published: 14 May 2015
- views: 228534
Covers all topics, including wave particle duality, Schrodinger's cat, EPR / Bell inequality, and the relationship between measurement and entanglement. Quantum Mechanics and Quantum Physics.
- published: 23 Mar 2013
- views: 720775
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Human Brain And Quantum Physics - Become Self Aware
Dr. Granville Dharmawardena of the University of Colombo writes that psychologists often speak of the mind and the body as two separate entities for convenience, but most acknowledge that they are intimately entwined. Yet none knows exactly how or how intimately. So the mind body problem keeps stubbornly resisting a definite solution. Philosopher John Searle (Mills Professor of Philosophy, University of California, and Berkley) says that today’s philosophers are reluctant to tackle such big problems as how people have been trying to understand their relationship to the universe.
All these refer to the elusive relationship between the body and the mind referred to more generally as the brain-mind problem. The brain-mind relationship has baffled mankind for a very long time. One main reason for this is that it was not considered as a candidate for scientific study until recently.
Psychology and related sciences were able to continue for many years by either ignoring the brain entirely or at best treating it as a black box whose rules of operation could be understood without reference to its internal contents or composition.
The human brain without doubt is the most complex organ in the known universe. It is physical and biological. Therefore, it has to be amenable to scientific probing without the intervention of such considerations as the Gödel’s theorem, which states that there are statements in mathematical systems which are true but cannot be proven within those systems.
Consciousness on the other hand is neither physical nor biological. Therefore, it is a more elusive subject to deal with and Gödel’s considerations may have a role to play there. Attempts to understand brain and consciousness have been mostly based on restrictive Newtonian classical science and exclusively the material realm composed of matter.
Although the powers of understanding of human senses and the scope of Newtonian science are limited to three spatial dimensions, the scope of our universe is not limited to three dimensions. In fact, news theories hypothesize there are eleven dimensions. Many of the natural phenomena happening within our universe transcend the three dimension scene. Therefore, it is not possible to assume that the mechanisms of operation of the brain and consciousness remain imprisoned within the confines of Isaac Newton’s three dimensional material universe. Just as the Earth was proved not to be the center of the universe, our current theories that govern our physical universe such as Einstein’s gravity theory and others may become obsolete in our understanding of reality.
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- published: 01 May 2015
- views: 520501
Lecture 1 of Leonard Susskind's Modern Physics course concentrating on Quantum Mechanics. Recorded January 14, 2008 at Stanford University.
This Stanford Continuing Studies course is the second of a six-quarter sequence of classes exploring the essential theoretical foundations of modern physics. The topics covered in this course focus on quantum mechanics. Leonard Susskind is the Felix Bloch Professor of Physics at Stanford University.
Complete playlist for the course:
http://youtube.com/view_play_list?p=189C0DCE90CB6D81
Stanford Continuing Studies: http://continuingstudies.stanford.edu/
About Leonard Susskind: http://www.stanford.edu/dept/physics/people/faculty/susskind_leonard.html
Stanford University channel on YouTube:
http://www.youtube.com/stanford
- published: 10 Apr 2008
- views: 679547
Check out the Massey Lectures with Neil Turok: http://dft.ba/-massey
Perimeter Institute for Theoretical Physics: http://pitp.ca
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Minute Physics provides an energetic and entertaining view of old and new problems in physics -- all in a minute!
Music by Nathaniel Schroeder: http://www.soundcloud.com/drschroeder
Thanks to Nima Doroud and Bruno LeFloch for contributions and to Perimeter Institute for support.
http://www.perimeterinstitute.ca
Produced in association with the 2012 Massey Lecture Series http://dft.ba/-massey
- published: 14 Oct 2012
- views: 2390380
When no one is looking, a particle has near limitless potential: it can be nearly anywhere. But measure it, and the particle snaps to one position. How do subatomic objects shed their quantum weirdness? Experts in the field of physics, including David Z. Albert, Sean Carroll, Sheldon Goldstein, Ruediger Schack, and moderator Brian Greene, discuss the history of quantum mechanics, current theories in the field, and possibilities for the future.
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Participants: David Z. Albert, Sean Carroll, Sheldon Goldstein, Ruediger Schack
Original Program date: May 29, 2014
Brian Greene's Introduction. 00:10
The double-slit experiment 4:03
Waves of probability. 10:50
Participant Introductions. 17:55
The classic outlook changed forever. 19:41
The Norman Ramsey approach to quantum mechanics. 22:44
The quantum measurement problem. 28:45
Does there need to be a clear separation between the quantum description and the observer? 31:44
How does the double slit fit into this example? 38:49
The many worlds approach to quantum mechanics. 45:48
If we can't see the other worlds, isn't that equal to believing in god or angels? 50:45
Summing up the many worlds theory. 59:52
Spontaneous collapse theory. 1:00:04
How do you make this theory precise. 1:08:00
Tallying the votes for collapse theory. 1:13:27
What is Qbism? 1:14:00
Does cubism gives a description of the world that needs an observer? 1:19:25
Two equations vs one. 1:27:04
The final vote for Qbism. 1:30:20
- published: 20 Jun 2014
- views: 507043
Professor Leonard Susskind describes how gravity and quantum information theory have come together to create a new way of thinking about physical systems. From fluid dynamics to strange metals, from black holes to the foundations of quantum mechanics, almost all areas of physics are being touched by the new paradigm.
- published: 07 Nov 2015
- views: 19992
Subscribe to BBC News www.youtube.com/bbcnews
British physicist Brian Cox is challenged by the presenter of Radio 4's 'Life Scientific', Jim Al-Khalili, to explain the rules of quantum mechanics in just a minute. Brian succeeds; while conceding that the idea that everything is inherently probabilistic, is challenging. Even Einstein found it difficult.
http://www.bbc.co.uk/programmes/b04hvx9z
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- published: 23 Sep 2014
- views: 192014
Quantum Mechanics is one of the breakthroughs in science that enabled scientists to explain phenomena at the level of atomic and sub-atomic particles. As the Quantum theory progressed, the more “mysteries” it begin to tackle which prompted Einstein to say, “the more success the quantum theory has, the sillier it looks.” It’s no surprise that quantum mechanics has had a huge impact on our view of reality, see what we mean with these 25 ways that quantum mechanics changed our view of the universe.
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Check out the physical list at - http://list25.com/25-ways-that-quantum-mechanics-changed-our-view-of-the-universe/
Preview:
Everything we know stands in a theory
The universe may be a hologram
The more technology improves, the more imprecise innovations become
Light can be controlled and concentrated for different functions
Randomness can be calculated and predicted
Objects behave differently when measured
There exists more than one universe
There is more than one dimension
Reality is an application of Holodynamics
Light is an object that can be consumed and disintegrated
Electromagnetic field current can be controlled
Light can be used for certain electronic devices to function
Jewel like geometry challenges deeply held notions of quantum physics
Light can be used as transportation
The sun’s light can be used for other technologies
Electricity can now be used internally in medicine
There is a particle that gives mass to even the tiniest forms of matter
Liquids can defy the force of gravity
People can travel through time backwards or forward
Data can now be transferred faster than ever before
Air turbulence can be controlled
and more...in the video...
- published: 13 Jan 2015
- views: 108685
View full lesson: http://ed.ted.com/lessons/what-can-schrodinger-s-cat-teach-us-about-quantum-mechanics-josh-samani
The classical physics that we encounter in our everyday, macroscopic world is very different from the quantum physics that governs systems on a much smaller scale (like atoms). One great example of quantum physics’ weirdness can be shown in the Schrödinger's cat thought experiment. Josh Samani walks us through this experiment in quantum entanglement.
Lesson by Josh Samani, animation by Dan Pinto.
- published: 21 Aug 2014
- views: 346303
This is one of the best lessons I have seen if someone wants to understand quantum physics or quantum mechanics.
- published: 27 Feb 2013
- views: 265108
Quantum mechanics (QM - also known as quantum physics, or quantum theory) is a branch of physics dealing with physical phenomena where the action is on the order of the Planck constant. Quantum mechanics departs from classical mechanics primarily at the quantum realm of atomic and subatomic length scales. QM provides a mathematical description of much of the dual particle-like and wave-like behavior and interactions of energy and matter.
In advanced topics of quantum mechanics, some of these behaviors are macroscopic and only emerge at extreme (i.e., very low or very high) energies or temperatures. The name quantum mechanics derives from the observation that some physical quantities can change only in discrete amounts (Latin quanta), and not in a continuous (cf. analog) way. For example, the angular momentum of an electron bound to an atom or molecule is quantized. In the context of quantum mechanics, the wave–particle duality of energy and matter and the uncertainty principle provide a unified view of the behavior of photons, electrons, and other atomic-scale objects.
This page contains text from Wikipedia, the Free Encyclopedia -
http://en.wikipedia.org/wiki/Quantum_mechanics
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
Richard Phillips Feynman (
/ˈfaɪnmən/; May 11, 1918 – February 15, 1988) was an American physicist known for his work in the path integral formulation of quantum mechanics, the theory of quantum electrodynamics, and the physics of the superfluidity of supercooled liquid helium, as well as in particle physics (he proposed the parton model). For his contributions to the development of quantum electrodynamics, Feynman, jointly with Julian Schwinger and Sin-Itiro Tomonaga, received the Nobel Prize in Physics in 1965. He developed a widely used pictorial representation scheme for the mathematical expressions governing the behavior of subatomic particles, which later became known as Feynman diagrams. During his lifetime, Feynman became one of the best-known scientists in the world. In a 1999 poll of 130 leading physicists worldwide by the British journal Physics World he was ranked as one of the ten greatest physicists of all time.
He assisted in the development of the atomic bomb and was a member of the panel that investigated the Space Shuttle Challenger disaster. In addition to his work in theoretical physics, Feynman has been credited with pioneering the field of quantum computing, and introducing the concept of nanotechnology. He held the Richard Chace Tolman professorship in theoretical physics at the California Institute of Technology.
This page contains text from Wikipedia, the Free Encyclopedia -
http://en.wikipedia.org/wiki/Richard_Feynman
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
Albert Einstein ( /ˈælbərt ˈaɪnstaɪn/; German: [ˈalbɐt ˈaɪnʃtaɪn] (
listen); 14 March 1879 – 18 April 1955) was a German theoretical physicist who developed the theory of general relativity, effecting a revolution in physics. For this achievement, Einstein is often regarded as the father of modern physics. While best known for his mass–energy equivalence formula E = mc2 (which has been dubbed "the world's most famous equation"), he received the 1921 Nobel Prize in Physics "for his services to theoretical physics, and especially for his discovery of the law of the photoelectric effect". The latter was pivotal in establishing quantum theory within physics.
Near the beginning of his career, Einstein thought that Newtonian mechanics was no longer enough to reconcile the laws of classical mechanics with the laws of the electromagnetic field. This led to the development of his special theory of relativity. He realized, however, that the principle of relativity could also be extended to gravitational fields, and with his subsequent theory of gravitation in 1916, he published a paper on the general theory of relativity. He continued to deal with problems of statistical mechanics and quantum theory, which led to his explanations of particle theory and the motion of molecules. He also investigated the thermal properties of light which laid the foundation of the photon theory of light. In 1917, Einstein applied the general theory of relativity to model the structure of the universe as a whole.
This page contains text from Wikipedia, the Free Encyclopedia -
http://en.wikipedia.org/wiki/Albert_Einstein
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
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54:54Quantum Theory - Full Documentary HD
Quantum Theory - Full Documentary HDQuantum Theory - Full Documentary HD
Like us on Facebook: https://www.facebook.com/advexondocumentary Watch the dark side of Quantum Physics -- http://youtu.be/bPx_Vvjpw9Y The World of Quantum - Full Documentary HD 2014 http://www.advexon.com For more Scientific DOCUMENTARIES. Subscribe for more Videos... Quantum mechanics (QM -- also known as quantum physics, or quantum theory) is a branch of physics which deals with physical phenomena at nanoscopic scales where the action is on the order of the Planck constant. It departs from classical mechanics primarily at the quantum realm of atomic and subatomic length scales. Quantum mechanics provides a mathematical description of much of the dual particle-like and wave-like behavior and interactions of energy and matter. Quantum mechanics provides a substantially useful framework for many features of the modern periodic table of elements including the behavior of atoms during chemical bonding and has played a significant role in the development of many modern technologies. In advanced topics of quantum mechanics, some of these behaviors are macroscopic (see macroscopic quantum phenomena) and emerge at only extreme (i.e., very low or very high) energies or temperatures (such as in the use of superconducting magnets). For example, the angular momentum of an electron bound to an atom or molecule is quantized. In contrast, the angular momentum of an unbound electron is not quantized. In the context of quantum mechanics, the wave--particle duality of energy and matter and the uncertainty principle provide a unified view of the behavior of photons, electrons, and other atomic-scale objects. The mathematical formulations of quantum mechanics are abstract. A mathematical function, the wavefunction, provides information about the probability amplitude of position, momentum, and other physical properties of a particle. Mathematical manipulations of the wavefunction usually involve bra--ket notation which requires an understanding of complex numbers and linear functionals. The wavefunction formulation treats the particle as a quantum harmonic oscillator, and the mathematics is akin to that describing acoustic resonance. Many of the results of quantum mechanics are not easily visualized in terms of classical mechanics. For instance, in a quantum mechanical model the lowest energy state of a system, the ground state, is non-zero as opposed to a more "traditional" ground state with zero kinetic energy (all particles at rest). Instead of a traditional static, unchanging zero energy state, quantum mechanics allows for far more dynamic, chaotic possibilities, according to John Wheeler. The earliest versions of quantum mechanics were formulated in the first decade of the 20th century. About this time, the atomic theory and the corpuscular theory of light (as updated by Einstein)[1] first came to be widely accepted as scientific fact; these latter theories can be viewed as quantum theories of matter and electromagnetic radiation, respectively. Early quantum theory was significantly reformulated in the mid-1920s by Werner Heisenberg, Max Born and Pascual Jordan, (matrix mechanics); Louis de Broglie and Erwin Schrödinger (wave mechanics); and Wolfgang Pauli and Satyendra Nath Bose (statistics of subatomic particles). Moreover, the Copenhagen interpretation of Niels Bohr became widely accepted. By 1930, quantum mechanics had been further unified and formalized by the work of David Hilbert, Paul Dirac and John von Neumann[2] with a greater emphasis placed on measurement in quantum mechanics, the statistical nature of our knowledge of reality, and philosophical speculation about the role of the observer. Quantum mechanics has since permeated throughout many aspects of 20th-century physics and other disciplines including quantum chemistry, quantum electronics, quantum optics, and quantum information science. Much 19th-century physics has been re-evaluated as the "classical limit" of quantum mechanics and its more advanced developments in terms of quantum field theory, string theory, and speculative quantum gravity theories. https://www.youtube.com/watch?v=ZsVGut7G-dU -
22:00Quantum Mechanics for Dummies
Quantum Mechanics for DummiesQuantum Mechanics for Dummies
Hi Everyone, today we're sharing Quantum Mechanics made simple! This 20 minute explanation covers the basics and should give you a good foundation for understanding the principles of Quantum Mechanics. TOPICS COVERED: 1). What are atoms made of? - 00:30 2). What is a particle? - 00:30 3). The Standard Model of Elementary Particles explained - 1:40 4). Higgs Field and Higgs Boson explained - 2:34 5). Quantum Leap explained - 3:07 6). Wave Particle duality explained - the Double slit experiment - 3:50 7). Schrödinger's equation explained - the "probability wave" - 6:09 7). How the act of measurement collapses a particle's wave function - 6:43 9). The Superposition Principle explained - 7:10 10). Schrödinger's cat explained - 8:19 11). Are particle's time traveling in the Double slit experiment? - 9:39 12). Many World's theory (Parallel universe's) explained - 12:23 13). Quantum Entanglement explained - 13:37 14). Spooky Action at a Distance explained - 14:09 15). Quantum Mechanics vs Einstein's explanation for Spooky action at a Distance (Bell's Theorem) - 15:40 16). Quantum Tunneling explained - 16:15 17). How the Sun Burns using Quantum Tunneling explained - 16:47 18). The Quantum Computer explained - 17:56 19). Quantum Teleportation explained - 18:24 20). Quantum Mechanics and General Relativity incompatibility explained. String theory - a possible theory of everything - introduced - 21:02 SOURCES: Hunt for the Higgs - Horizon BBC documentary Parallel Universes - Horizon BBC documentary Quantum Mechanics - NOVA documentary, presented by Brian Greene Inexplicable Universe - The Great Courses - presented by Neil deGrasse Tyson -
25:47Quantum Mechanics: Animation explaining quantum physics
Quantum Mechanics: Animation explaining quantum physicsQuantum Mechanics: Animation explaining quantum physics
Covers all topics, including wave particle duality, Schrodinger's cat, EPR / Bell inequality, and the relationship between measurement and entanglement. Quantum Mechanics and Quantum Physics. -
49:31THE AWAKENING – Quantum Mechanics of the Human Brain & Consciousness
THE AWAKENING – Quantum Mechanics of the Human Brain & ConsciousnessTHE AWAKENING – Quantum Mechanics of the Human Brain & Consciousness
https://www.facebook.com/AdvexonFreedom ☮ FREEDOM TV LIKE SHARE SUBSCRIBE God Bless Human Brain And Quantum Physics - Become Self Aware Dr. Granville Dharmawardena of the University of Colombo writes that psychologists often speak of the mind and the body as two separate entities for convenience, but most acknowledge that they are intimately entwined. Yet none knows exactly how or how intimately. So the mind body problem keeps stubbornly resisting a definite solution. Philosopher John Searle (Mills Professor of Philosophy, University of California, and Berkley) says that today’s philosophers are reluctant to tackle such big problems as how people have been trying to understand their relationship to the universe. All these refer to the elusive relationship between the body and the mind referred to more generally as the brain-mind problem. The brain-mind relationship has baffled mankind for a very long time. One main reason for this is that it was not considered as a candidate for scientific study until recently. Psychology and related sciences were able to continue for many years by either ignoring the brain entirely or at best treating it as a black box whose rules of operation could be understood without reference to its internal contents or composition. The human brain without doubt is the most complex organ in the known universe. It is physical and biological. Therefore, it has to be amenable to scientific probing without the intervention of such considerations as the Gödel’s theorem, which states that there are statements in mathematical systems which are true but cannot be proven within those systems. Consciousness on the other hand is neither physical nor biological. Therefore, it is a more elusive subject to deal with and Gödel’s considerations may have a role to play there. Attempts to understand brain and consciousness have been mostly based on restrictive Newtonian classical science and exclusively the material realm composed of matter. Although the powers of understanding of human senses and the scope of Newtonian science are limited to three spatial dimensions, the scope of our universe is not limited to three dimensions. In fact, news theories hypothesize there are eleven dimensions. Many of the natural phenomena happening within our universe transcend the three dimension scene. Therefore, it is not possible to assume that the mechanisms of operation of the brain and consciousness remain imprisoned within the confines of Isaac Newton’s three dimensional material universe. Just as the Earth was proved not to be the center of the universe, our current theories that govern our physical universe such as Einstein’s gravity theory and others may become obsolete in our understanding of reality. #Top, #Best, #HD, #Illuminati, #TopSecret, #Secret, #Security, #Sky, #Googlemap, #google, #youtube, #Uncensored, #nude, #certified, #Government, #CIA, #FBI, #NATO, #NASA, #State, #America, #VIP, #howto, #amazing, #cool, #highlights, #sexy, #moon, #space, #interview, #Advexon, #Bible, #Jesus, #New, #2014, #2015, #DocumentaryHD, #Documentary2015, #fulldocumentary, #crazy #love #NWO #RFID #chip #theory #conspiracy #california #sanfrancisco #japan #russia #china #korea #israel #isis #911 #666 #mustwatch #meditation #telekinesis #psychokinesis, #spiritual #energy #chi #psi, psi-wheel, spoon-bending, #teleport, #supernatural #power, super-psychic, #precognition, #postcognition, #foretunetelling, clairvoyance, jinn #angels, #sprits, tarot card, foresee future, past present, #matrix #reality, #illusion, spirit #science, mentalist, #mind-reading #freedomtv #Advexonfreedom #worldgoverment #Federal #Reserve #Federalreserve #Worldwar #WW3 #Breakingnews #News #Worldnews #rfid #ISIS #terror #wakeup #Advexon illuminati #conspiracy illuminati #music #illuminati #signs and symbols #illuminati #symbols #Trilateral #Commission #Bank #Hitler #communism #fascism #Russia #China #SovietUnion #FBI #CIA #MonetaryFund #Terrorist #FederalReserve #Administration #Investigation #Ritual #sacrifice #BCC #eye #pyramid #Media #news #GeorgeBush #justice #congress #JPMorgan #MorganStanley #Time #Oldest #Rockefeller #Rothschild #Taft #initiation #secrets #billionaire #loyalty #Bilderberg #keyposition #power #gold #oil #change #bulding7 #worldtrade #Antichrist #666 #senator #911 #NOVUSORDOSECLORUM #agenda21 #ebola #vaccine #zombie #Armageddon #end #apocalypse -
111:11Lecture 1 | Modern Physics: Quantum Mechanics (Stanford)
Lecture 1 | Modern Physics: Quantum Mechanics (Stanford)Lecture 1 | Modern Physics: Quantum Mechanics (Stanford)
Lecture 1 of Leonard Susskind's Modern Physics course concentrating on Quantum Mechanics. Recorded January 14, 2008 at Stanford University. This Stanford Continuing Studies course is the second of a six-quarter sequence of classes exploring the essential theoretical foundations of modern physics. The topics covered in this course focus on quantum mechanics. Leonard Susskind is the Felix Bloch Professor of Physics at Stanford University. Complete playlist for the course: http://youtube.com/view_play_list?p=189C0DCE90CB6D81 Stanford Continuing Studies: http://continuingstudies.stanford.edu/ About Leonard Susskind: http://www.stanford.edu/dept/physics/people/faculty/susskind_leonard.html Stanford University channel on YouTube: http://www.youtube.com/stanford -
4:20The Origin of Quantum Mechanics (feat. Neil Turok)
The Origin of Quantum Mechanics (feat. Neil Turok)The Origin of Quantum Mechanics (feat. Neil Turok)
Check out the Massey Lectures with Neil Turok: http://dft.ba/-massey Perimeter Institute for Theoretical Physics: http://pitp.ca MinutePhysics is on Google+ - http://bit.ly/qzEwc6 And facebook - http://facebook.com/minutephysics And twitter - @minutephysics Minute Physics provides an energetic and entertaining view of old and new problems in physics -- all in a minute! Music by Nathaniel Schroeder: http://www.soundcloud.com/drschroeder Thanks to Nima Doroud and Bruno LeFloch for contributions and to Perimeter Institute for support. http://www.perimeterinstitute.ca Produced in association with the 2012 Massey Lecture Series http://dft.ba/-massey -
98:44Measure for Measure: Quantum Physics and Reality
Measure for Measure: Quantum Physics and RealityMeasure for Measure: Quantum Physics and Reality
When no one is looking, a particle has near limitless potential: it can be nearly anywhere. But measure it, and the particle snaps to one position. How do subatomic objects shed their quantum weirdness? Experts in the field of physics, including David Z. Albert, Sean Carroll, Sheldon Goldstein, Ruediger Schack, and moderator Brian Greene, discuss the history of quantum mechanics, current theories in the field, and possibilities for the future. Subscribe to our YouTube Channel for all the latest from WSF. Visit our Website: http://www.worldsciencefestival.com/ Like us on Facebook: https://www.facebook.com/worldsciencefestival Follow us on twitter: https://twitter.com/WorldSciFest Participants: David Z. Albert, Sean Carroll, Sheldon Goldstein, Ruediger Schack Original Program date: May 29, 2014 Brian Greene's Introduction. 00:10 The double-slit experiment 4:03 Waves of probability. 10:50 Participant Introductions. 17:55 The classic outlook changed forever. 19:41 The Norman Ramsey approach to quantum mechanics. 22:44 The quantum measurement problem. 28:45 Does there need to be a clear separation between the quantum description and the observer? 31:44 How does the double slit fit into this example? 38:49 The many worlds approach to quantum mechanics. 45:48 If we can't see the other worlds, isn't that equal to believing in god or angels? 50:45 Summing up the many worlds theory. 59:52 Spontaneous collapse theory. 1:00:04 How do you make this theory precise. 1:08:00 Tallying the votes for collapse theory. 1:13:27 What is Qbism? 1:14:00 Does cubism gives a description of the world that needs an observer? 1:19:25 Two equations vs one. 1:27:04 The final vote for Qbism. 1:30:20 -
74:25Entanglement and Complexity: Gravity and Quantum Mechanics
Entanglement and Complexity: Gravity and Quantum MechanicsEntanglement and Complexity: Gravity and Quantum Mechanics
Professor Leonard Susskind describes how gravity and quantum information theory have come together to create a new way of thinking about physical systems. From fluid dynamics to strange metals, from black holes to the foundations of quantum mechanics, almost all areas of physics are being touched by the new paradigm. -
1:22Quantum Mechanics explained in 60 seconds by Brian Cox - BBC News
Quantum Mechanics explained in 60 seconds by Brian Cox - BBC NewsQuantum Mechanics explained in 60 seconds by Brian Cox - BBC News
Subscribe to BBC News www.youtube.com/bbcnews British physicist Brian Cox is challenged by the presenter of Radio 4's 'Life Scientific', Jim Al-Khalili, to explain the rules of quantum mechanics in just a minute. Brian succeeds; while conceding that the idea that everything is inherently probabilistic, is challenging. Even Einstein found it difficult. http://www.bbc.co.uk/programmes/b04hvx9z Subscribe to BBC News HERE http://bit.ly/1rbfUog Check out our website: http://www.bbc.com/news Facebook: http://www.facebook.com/bbcworldnews Twitter: http://www.twitter.com/bbcworld Instagram: http://instagram.com/bbcnews -
9:4125 Ways That Quantum Mechanics Changed Our View Of Reality
25 Ways That Quantum Mechanics Changed Our View Of Reality25 Ways That Quantum Mechanics Changed Our View Of Reality
Quantum Mechanics is one of the breakthroughs in science that enabled scientists to explain phenomena at the level of atomic and sub-atomic particles. As the Quantum theory progressed, the more “mysteries” it begin to tackle which prompted Einstein to say, “the more success the quantum theory has, the sillier it looks.” It’s no surprise that quantum mechanics has had a huge impact on our view of reality, see what we mean with these 25 ways that quantum mechanics changed our view of the universe. Follow us on: Twitter: https://twitter.com/list25 Facebook: https://www.facebook.com/list25 Website: http://list25.com Check out the physical list at - http://list25.com/25-ways-that-quantum-mechanics-changed-our-view-of-the-universe/ Preview: Everything we know stands in a theory The universe may be a hologram The more technology improves, the more imprecise innovations become Light can be controlled and concentrated for different functions Randomness can be calculated and predicted Objects behave differently when measured There exists more than one universe There is more than one dimension Reality is an application of Holodynamics Light is an object that can be consumed and disintegrated Electromagnetic field current can be controlled Light can be used for certain electronic devices to function Jewel like geometry challenges deeply held notions of quantum physics Light can be used as transportation The sun’s light can be used for other technologies Electricity can now be used internally in medicine There is a particle that gives mass to even the tiniest forms of matter Liquids can defy the force of gravity People can travel through time backwards or forward Data can now be transferred faster than ever before Air turbulence can be controlled and more...in the video... -
5:24What can Schrödinger's cat teach us about quantum mechanics? - Josh Samani
What can Schrödinger's cat teach us about quantum mechanics? - Josh SamaniWhat can Schrödinger's cat teach us about quantum mechanics? - Josh Samani
View full lesson: http://ed.ted.com/lessons/what-can-schrodinger-s-cat-teach-us-about-quantum-mechanics-josh-samani The classical physics that we encounter in our everyday, macroscopic world is very different from the quantum physics that governs systems on a much smaller scale (like atoms). One great example of quantum physics’ weirdness can be shown in the Schrödinger's cat thought experiment. Josh Samani walks us through this experiment in quantum entanglement. Lesson by Josh Samani, animation by Dan Pinto. -
52:50Quantum Mechanics Explained or Quantum Theory For Dummies
Quantum Mechanics Explained or Quantum Theory For DummiesQuantum Mechanics Explained or Quantum Theory For Dummies
This is one of the best lessons I have seen if someone wants to understand quantum physics or quantum mechanics. -
31:09Quantum Theory Made Easy [1]
Quantum Theory Made Easy [1]Quantum Theory Made Easy [1]
“Quantum Theory Made Easy,” a series in which the concepts of quantum physics are broken down for layaudiences in a more digestable manner. More in-depth than most presentations for laypersons, but without the mathematical rigour needed by a specialist in the field. So, you've heard that light is a wave/particle. Now you get to find out how we know this! In this episode, we’ll be discussing the dual nature of light, starting with a brief overview of how light was determined to be an electromagnetic wave and what properties light was classically associated with. From there, we’ll present the results of Planck’s blackbody experiments and introduce the concept of quantization, which was how this whole quantum mess was started in the first place. After explaining how the quantum of action (h) works, we’ll move on to how it showed up in experiments that challenged the wave picture of light, and how Einstein, bremsstrahlung, and Compton, made it clear that light can behave like a particle. If you enjoyed this video, please give it a like. If you want to help support the propagation of this material, please press the “favorite” button, and if you’re feeling particularly proactive, please share it on your social media of choice. And of course, if you’re new to this channel, or have just been lurking about but aren’t sure if you’re ready to commit, just take a risk and press that subscribe button (there’s actually no risk involved. Like, at all. Just subscribe already.) Special thanks goes to the following resources for their (Fair-Use protected) material: Best of Science https://www.youtube.com/user/Best0fScience/videos UC Berkeley https://www.youtube.com/user/UCBerkeley Stellardrone If you want to support the creation of these videos, or just want to see your name appear at the end of them, click here: https://www.patreon.com/user?u=581251&u;=581251&ty;=h -
15:14Brian Greene and Alan Alda Discuss Why Einstein Hated Quantum Mechanics
Brian Greene and Alan Alda Discuss Why Einstein Hated Quantum MechanicsBrian Greene and Alan Alda Discuss Why Einstein Hated Quantum Mechanics
Albert Einstein was not a fan of quantum mechanics. He was annoyed by the uncertain, random nature of the universe it implied (hence the famous quote "God does not play dice with the universe"). So, Einstein tried to develop a unified theory that would circumvent what he saw as quantum mechanics' flaws. In this excerpt from the 2014 World Science Festival Program Dear Albert, Alan Alda and Brian Greene discuss Einstein's relationship with the "unruly child" of quantum mechanics, and how the famed physicist came up with the Special Theory of Relativity. Original Program Date: May 28, 2014 Subscribe to our YouTube Channel for all the latest from WSF. Visit our Website: http://www.worldsciencefestival.com/ Like us on Facebook: https://www.facebook.com/worldsciencefestival Follow us on twitter: https://twitter.com/WorldSciFest
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Quantum Mechanics
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Released 2013- add to main playlist Play in Full Screen Potentiality
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Quantum Mechanics
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Quantum Theory - Full Documentary HD
Like us on Facebook: https://www.facebook.com/advexondocumentary Watch the dark side of Quantum Physics -- http://youtu.be/bPx_Vvjpw9Y The World of Quantum - Full Documentary HD 2014 http://www.advexon.com For more Scientific DOCUMENTARIES. Subscribe for more Videos... Quantum mechanics (QM -- also known as quantum physics, or quantum theory) is a branch of physics which deals with physical phenomena at nanoscopic scales where the action is on the order of the Planck constant. It departs from classical mechanics primarily at the quantum realm of atomic and subatomic length scales. Quantum mechanics provides a mathematical description of much of the dual particle-like and wave-like behavior and interactions of energy and matter. Quantum mechanics provides a substantially useful framework f... -
Quantum Mechanics for Dummies
Hi Everyone, today we're sharing Quantum Mechanics made simple! This 20 minute explanation covers the basics and should give you a good foundation for understanding the principles of Quantum Mechanics. TOPICS COVERED: 1). What are atoms made of? - 00:30 2). What is a particle? - 00:30 3). The Standard Model of Elementary Particles explained - 1:40 4). Higgs Field and Higgs Boson explained - 2:34 5). Quantum Leap explained - 3:07 6). Wave Particle duality explained - the Double slit experiment - 3:50 7). Schrödinger's equation explained - the "probability wave" - 6:09 7). How the act of measurement collapses a particle's wave function - 6:43 9). The Superposition Principle explained - 7:10 10). Schrödinger's cat explained - 8:19 11). Are particle's time traveling in the Double slit experi... -
Quantum Mechanics: Animation explaining quantum physics
Covers all topics, including wave particle duality, Schrodinger's cat, EPR / Bell inequality, and the relationship between measurement and entanglement. Quantum Mechanics and Quantum Physics. -
THE AWAKENING – Quantum Mechanics of the Human Brain & Consciousness
https://www.facebook.com/AdvexonFreedom ☮ FREEDOM TV LIKE SHARE SUBSCRIBE God Bless Human Brain And Quantum Physics - Become Self Aware Dr. Granville Dharmawardena of the University of Colombo writes that psychologists often speak of the mind and the body as two separate entities for convenience, but most acknowledge that they are intimately entwined. Yet none knows exactly how or how intimately. So the mind body problem keeps stubbornly resisting a definite solution. Philosopher John Searle (Mills Professor of Philosophy, University of California, and Berkley) says that today’s philosophers are reluctant to tackle such big problems as how people have been trying to understand their relationship to the universe. All these refer to the elusive relationship between the body and the min... -
Lecture 1 | Modern Physics: Quantum Mechanics (Stanford)
Lecture 1 of Leonard Susskind's Modern Physics course concentrating on Quantum Mechanics. Recorded January 14, 2008 at Stanford University. This Stanford Continuing Studies course is the second of a six-quarter sequence of classes exploring the essential theoretical foundations of modern physics. The topics covered in this course focus on quantum mechanics. Leonard Susskind is the Felix Bloch Professor of Physics at Stanford University. Complete playlist for the course: http://youtube.com/view_play_list?p=189C0DCE90CB6D81 Stanford Continuing Studies: http://continuingstudies.stanford.edu/ About Leonard Susskind: http://www.stanford.edu/dept/physics/people/faculty/susskind_leonard.html Stanford University channel on YouTube: http://www.youtube.com/stanford -
The Origin of Quantum Mechanics (feat. Neil Turok)
Check out the Massey Lectures with Neil Turok: http://dft.ba/-massey Perimeter Institute for Theoretical Physics: http://pitp.ca MinutePhysics is on Google+ - http://bit.ly/qzEwc6 And facebook - http://facebook.com/minutephysics And twitter - @minutephysics Minute Physics provides an energetic and entertaining view of old and new problems in physics -- all in a minute! Music by Nathaniel Schroeder: http://www.soundcloud.com/drschroeder Thanks to Nima Doroud and Bruno LeFloch for contributions and to Perimeter Institute for support. http://www.perimeterinstitute.ca Produced in association with the 2012 Massey Lecture Series http://dft.ba/-massey -
Measure for Measure: Quantum Physics and Reality
When no one is looking, a particle has near limitless potential: it can be nearly anywhere. But measure it, and the particle snaps to one position. How do subatomic objects shed their quantum weirdness? Experts in the field of physics, including David Z. Albert, Sean Carroll, Sheldon Goldstein, Ruediger Schack, and moderator Brian Greene, discuss the history of quantum mechanics, current theories in the field, and possibilities for the future. Subscribe to our YouTube Channel for all the latest from WSF. Visit our Website: http://www.worldsciencefestival.com/ Like us on Facebook: https://www.facebook.com/worldsciencefestival Follow us on twitter: https://twitter.com/WorldSciFest Participants: David Z. Albert, Sean Carroll, Sheldon Goldstein, Ruediger Schack Original Program date: May 29,... -
Entanglement and Complexity: Gravity and Quantum Mechanics
Professor Leonard Susskind describes how gravity and quantum information theory have come together to create a new way of thinking about physical systems. From fluid dynamics to strange metals, from black holes to the foundations of quantum mechanics, almost all areas of physics are being touched by the new paradigm. -
Quantum Mechanics explained in 60 seconds by Brian Cox - BBC News
Subscribe to BBC News www.youtube.com/bbcnews British physicist Brian Cox is challenged by the presenter of Radio 4's 'Life Scientific', Jim Al-Khalili, to explain the rules of quantum mechanics in just a minute. Brian succeeds; while conceding that the idea that everything is inherently probabilistic, is challenging. Even Einstein found it difficult. http://www.bbc.co.uk/programmes/b04hvx9z Subscribe to BBC News HERE http://bit.ly/1rbfUog Check out our website: http://www.bbc.com/news Facebook: http://www.facebook.com/bbcworldnews Twitter: http://www.twitter.com/bbcworld Instagram: http://instagram.com/bbcnews -
25 Ways That Quantum Mechanics Changed Our View Of Reality
Quantum Mechanics is one of the breakthroughs in science that enabled scientists to explain phenomena at the level of atomic and sub-atomic particles. As the Quantum theory progressed, the more “mysteries” it begin to tackle which prompted Einstein to say, “the more success the quantum theory has, the sillier it looks.” It’s no surprise that quantum mechanics has had a huge impact on our view of reality, see what we mean with these 25 ways that quantum mechanics changed our view of the universe. Follow us on: Twitter: https://twitter.com/list25 Facebook: https://www.facebook.com/list25 Website: http://list25.com Check out the physical list at - http://list25.com/25-ways-that-quantum-mechanics-changed-our-view-of-the-universe/ Preview: Everything we know stands in a theory The universe ... -
What can Schrödinger's cat teach us about quantum mechanics? - Josh Samani
View full lesson: http://ed.ted.com/lessons/what-can-schrodinger-s-cat-teach-us-about-quantum-mechanics-josh-samani The classical physics that we encounter in our everyday, macroscopic world is very different from the quantum physics that governs systems on a much smaller scale (like atoms). One great example of quantum physics’ weirdness can be shown in the Schrödinger's cat thought experiment. Josh Samani walks us through this experiment in quantum entanglement. Lesson by Josh Samani, animation by Dan Pinto. -
Quantum Mechanics Explained or Quantum Theory For Dummies
This is one of the best lessons I have seen if someone wants to understand quantum physics or quantum mechanics. -
Quantum Theory Made Easy [1]
“Quantum Theory Made Easy,” a series in which the concepts of quantum physics are broken down for layaudiences in a more digestable manner. More in-depth than most presentations for laypersons, but without the mathematical rigour needed by a specialist in the field. So, you've heard that light is a wave/particle. Now you get to find out how we know this! In this episode, we’ll be discussing the dual nature of light, starting with a brief overview of how light was determined to be an electromagnetic wave and what properties light was classically associated with. From there, we’ll present the results of Planck’s blackbody experiments and introduce the concept of quantization, which was how this whole quantum mess was started in the first place. After explaining how the quantum of action (h) ... -
Brian Greene and Alan Alda Discuss Why Einstein Hated Quantum Mechanics
Albert Einstein was not a fan of quantum mechanics. He was annoyed by the uncertain, random nature of the universe it implied (hence the famous quote "God does not play dice with the universe"). So, Einstein tried to develop a unified theory that would circumvent what he saw as quantum mechanics' flaws. In this excerpt from the 2014 World Science Festival Program Dear Albert, Alan Alda and Brian Greene discuss Einstein's relationship with the "unruly child" of quantum mechanics, and how the famed physicist came up with the Special Theory of Relativity. Original Program Date: May 28, 2014 Subscribe to our YouTube Channel for all the latest from WSF. Visit our Website: http://www.worldsciencefestival.com/ Like us on Facebook: https://www.facebook.com/worldsciencefestival Follow us on twitt... -
Easy Quantum Mechanics
This is a relativity simple animation expalaining quantum mechanics for those unedcuated in this subject. Warning - no rights reseved -
Richard Feynman on Quantum Mechanics Part 1 - Photons Corpuscles of Light
Richard Feynman on Quantum Mechanics -
Breaking barriers with quantum physics | Dr. Shohini Ghose | TEDxNickelCity
This talk was given at a local TEDx event, produced independently of the TED Conferences. Dr. Shohini Ghose talks about how the laws of quantum mechanics may be harnessed to develop next generation computers and novel protocols like teleportation. Shohini Ghose is an Associate Professor of Physics and Computer Science at Wilfrid Laurier University and an Affiliate of the Perimeter Institute for Theoretical Physics. She and her co-workers also made the first-ever movies of cesium atoms that demonstrate how the "butterfly effect" of chaos can impact quantum correlations or 'entanglement'. Dr. Ghose was awarded the prestigious Sera Bangali award for her contributions to science and she is also a member of the TED Fellowship for 2014. With much accolades and accomplishments, Dr. Gh... -
What is Spin? | Quantum Mechanics
Research assignment: Teach me about spin. Below there are suggested questions, recommended sources and my social media accounts: QUESTIONS: Questions that require less research: 1. This is our first real example of quantization, the phenomena that gives quantum mechanics it’s name. Here’s what it means. In the classical case of magnets going through a Stern Gerlach machine, the magnets can end up any where in the range. But in quantum mechanics, its can only be exactly up or down, these discrete values rather than a continuous range in between. This sort of quantization really bothered physicists. Can you understand why? And is there any classical physics phenomenon that also has sort of quantization? 2. Do you think that eventually all quantities in physics can be explained in terms of... -
Documentaries 2015 - Mystery of Quantum Physics
[Documentaries 2015] Mystery of Quantum Physics - National Geographic Documentary. Quantum mechanics (QM; also known as quantum physics, or quantum theory), including quantum field theory, is a fundamental branch of physics concerned with processes involving, for example, atoms and photons. In such processes, said to be quantized, the action has been observed to be only in integer multiples of the Planck constant, a physical quantity that is exceedingly, indeed perhaps ultimately, small. This is utterly inexplicable in classical physics. Quantum mechanics gradually arose from Max Planck's solution in 1900 to the black-body radiation problem (reported 1859) and Albert Einstein's 1905 paper which offered a quantum-based theory to explain the photoelectric effect (reported 1887). Early quant... -
Quantum Physics Debunks Materialism
To help support this ministry click here: http://www.patreon.com/inspiringphilosophy Materialism has been dead for decades now and recent research only reconfirms this and goes even further, as this video will show. It ends with a brief introduction to the Cosmic Conscious Argument for God's existence. Thanks to Johanan Raatz for helping make this video. Check out his channel here: youtube.com/JohananRaatz Translated into "Simplified Chinese" by Alice Zhou. Sources: Opening Quote from "Symmetries and Reflections: Scientific Essays" page 176 http://www.youtube.com/watch?v=DfPeprQ7oGc The Quantum Enigma Observation in Quantum Mechanics and the 'Collapse of the Wavefunction' http://adsabs.harvard.edu/abs/1961ZPhy..161..454J http://prola.aps.org/abstract/PR/v47/i10/p777_1 http://philoscien... -
Albert Einstein - The Quantum Theory - Documentary 2015
Albert Einstein 14 March 1879 – 18 April 1955) was a German-born theoretical physicist and philosopher of science. He developed the general theory of relativity, one of the two pillars of modern physics (alongside quantum mechanics). He is best known in popular culture for his mass–energy equivalence formula E = mc2 (which has been dubbed "the world's most famous equation"). He received the 1921 Nobel Prize in Physics "for his services to theoretical physics, and especially for his discovery of the law of the photoelectric effect". The latter was pivotal in establishing quantum theory. Near the beginning of his career, Einstein thought that Newtonian mechanics was no longer enough to reconcile the laws of classical mechanics with the laws of the electromagnetic field. This led to the deve... -
Quantum Mechanics (an embarrassment) - Sixty Symbols
Even the professional understanding of quantum mechanics is "embarrassing", says cosmologist Sean Carroll. Read Sean's blog on this subject at http://bit.ly/V1SUpV and the full paper at http://arxiv.org/abs/1301.1069 We filmed with Sean during his visit to the University of Nottingham and will have more videos with him coming soon. Check out Sean's website (and his excellent books) at: http://preposterousuniverse.com/ Read his Higgs Boson book: http://amzn.to/Nvdn8P Visit the SIxty Symbols website at http://www.sixtysymbols.com/ We're on Facebook at http://www.facebook.com/sixtysymbols And Twitter at http://twitter.com/#!/periodicvideos This project features scientists from The University of Nottingham http://www.nottingham.ac.uk/physics/index.aspx Sixty Symbols videos by Brady Haran ... -
1. Introduction to Superposition
MIT 8.04 Quantum Physics I, Spring 2013 View the complete course: http://ocw.mit.edu/8-04S13 Instructor: Allan Adams In this lecture, Prof. Adams discusses a series of thought experiments involving "box apparatus" to illustrate the concepts of uncertainty and superposition, which are central to quantum mechanics. The first ten minutes are devoted to course information. License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu
Quantum Theory - Full Documentary HD
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- Duration: 54:54
- Updated: 25 May 2014
- views: 2717810
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The World of Quantum - Fu...
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The World of Quantum - Full Documentary HD 2014
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Quantum mechanics (QM -- also known as quantum physics, or quantum theory) is a branch of physics which deals with physical phenomena at nanoscopic scales where the action is on the order of the Planck constant. It departs from classical mechanics primarily at the quantum realm of atomic and subatomic length scales. Quantum mechanics provides a mathematical description of much of the dual particle-like and wave-like behavior and interactions of energy and matter. Quantum mechanics provides a substantially useful framework for many features of the modern periodic table of elements including the behavior of atoms during chemical bonding and has played a significant role in the development of many modern technologies.
In advanced topics of quantum mechanics, some of these behaviors are macroscopic (see macroscopic quantum phenomena) and emerge at only extreme (i.e., very low or very high) energies or temperatures (such as in the use of superconducting magnets). For example, the angular momentum of an electron bound to an atom or molecule is quantized. In contrast, the angular momentum of an unbound electron is not quantized. In the context of quantum mechanics, the wave--particle duality of energy and matter and the uncertainty principle provide a unified view of the behavior of photons, electrons, and other atomic-scale objects.
The mathematical formulations of quantum mechanics are abstract. A mathematical function, the wavefunction, provides information about the probability amplitude of position, momentum, and other physical properties of a particle. Mathematical manipulations of the wavefunction usually involve bra--ket notation which requires an understanding of complex numbers and linear functionals. The wavefunction formulation treats the particle as a quantum harmonic oscillator, and the mathematics is akin to that describing acoustic resonance. Many of the results of quantum mechanics are not easily visualized in terms of classical mechanics. For instance, in a quantum mechanical model the lowest energy state of a system, the ground state, is non-zero as opposed to a more "traditional" ground state with zero kinetic energy (all particles at rest). Instead of a traditional static, unchanging zero energy state, quantum mechanics allows for far more dynamic, chaotic possibilities, according to John Wheeler.
The earliest versions of quantum mechanics were formulated in the first decade of the 20th century. About this time, the atomic theory and the corpuscular theory of light (as updated by Einstein)[1] first came to be widely accepted as scientific fact; these latter theories can be viewed as quantum theories of matter and electromagnetic radiation, respectively. Early quantum theory was significantly reformulated in the mid-1920s by Werner Heisenberg, Max Born and Pascual Jordan, (matrix mechanics); Louis de Broglie and Erwin Schrödinger (wave mechanics); and Wolfgang Pauli and Satyendra Nath Bose (statistics of subatomic particles). Moreover, the Copenhagen interpretation of Niels Bohr became widely accepted. By 1930, quantum mechanics had been further unified and formalized by the work of David Hilbert, Paul Dirac and John von Neumann[2] with a greater emphasis placed on measurement in quantum mechanics, the statistical nature of our knowledge of reality, and philosophical speculation about the role of the observer. Quantum mechanics has since permeated throughout many aspects of 20th-century physics and other disciplines including quantum chemistry, quantum electronics, quantum optics, and quantum information science. Much 19th-century physics has been re-evaluated as the "classical limit" of quantum mechanics and its more advanced developments in terms of quantum field theory, string theory, and speculative quantum gravity theories. https://www.youtube.com/watch?v=ZsVGut7G-dU
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Quantum mechanics (QM -- also known as quantum physics, or quantum theory) is a branch of physics which deals with physical phenomena at nanoscopic scales where the action is on the order of the Planck constant. It departs from classical mechanics primarily at the quantum realm of atomic and subatomic length scales. Quantum mechanics provides a mathematical description of much of the dual particle-like and wave-like behavior and interactions of energy and matter. Quantum mechanics provides a substantially useful framework for many features of the modern periodic table of elements including the behavior of atoms during chemical bonding and has played a significant role in the development of many modern technologies.
In advanced topics of quantum mechanics, some of these behaviors are macroscopic (see macroscopic quantum phenomena) and emerge at only extreme (i.e., very low or very high) energies or temperatures (such as in the use of superconducting magnets). For example, the angular momentum of an electron bound to an atom or molecule is quantized. In contrast, the angular momentum of an unbound electron is not quantized. In the context of quantum mechanics, the wave--particle duality of energy and matter and the uncertainty principle provide a unified view of the behavior of photons, electrons, and other atomic-scale objects.
The mathematical formulations of quantum mechanics are abstract. A mathematical function, the wavefunction, provides information about the probability amplitude of position, momentum, and other physical properties of a particle. Mathematical manipulations of the wavefunction usually involve bra--ket notation which requires an understanding of complex numbers and linear functionals. The wavefunction formulation treats the particle as a quantum harmonic oscillator, and the mathematics is akin to that describing acoustic resonance. Many of the results of quantum mechanics are not easily visualized in terms of classical mechanics. For instance, in a quantum mechanical model the lowest energy state of a system, the ground state, is non-zero as opposed to a more "traditional" ground state with zero kinetic energy (all particles at rest). Instead of a traditional static, unchanging zero energy state, quantum mechanics allows for far more dynamic, chaotic possibilities, according to John Wheeler.
The earliest versions of quantum mechanics were formulated in the first decade of the 20th century. About this time, the atomic theory and the corpuscular theory of light (as updated by Einstein)[1] first came to be widely accepted as scientific fact; these latter theories can be viewed as quantum theories of matter and electromagnetic radiation, respectively. Early quantum theory was significantly reformulated in the mid-1920s by Werner Heisenberg, Max Born and Pascual Jordan, (matrix mechanics); Louis de Broglie and Erwin Schrödinger (wave mechanics); and Wolfgang Pauli and Satyendra Nath Bose (statistics of subatomic particles). Moreover, the Copenhagen interpretation of Niels Bohr became widely accepted. By 1930, quantum mechanics had been further unified and formalized by the work of David Hilbert, Paul Dirac and John von Neumann[2] with a greater emphasis placed on measurement in quantum mechanics, the statistical nature of our knowledge of reality, and philosophical speculation about the role of the observer. Quantum mechanics has since permeated throughout many aspects of 20th-century physics and other disciplines including quantum chemistry, quantum electronics, quantum optics, and quantum information science. Much 19th-century physics has been re-evaluated as the "classical limit" of quantum mechanics and its more advanced developments in terms of quantum field theory, string theory, and speculative quantum gravity theories. https://www.youtube.com/watch?v=ZsVGut7G-dU
- published: 25 May 2014
- views: 2717810
Quantum Mechanics for Dummies
- Order: Reorder
- Duration: 22:00
- Updated: 14 May 2015
- views: 228534
Hi Everyone, today we're sharing Quantum Mechanics made simple! This 20 minute explanation covers the basics and should give you a good foundation for understan...
Hi Everyone, today we're sharing Quantum Mechanics made simple! This 20 minute explanation covers the basics and should give you a good foundation for understanding the principles of Quantum Mechanics.
TOPICS COVERED:
1). What are atoms made of? - 00:30
2). What is a particle? - 00:30
3). The Standard Model of Elementary Particles explained - 1:40
4). Higgs Field and Higgs Boson explained - 2:34
5). Quantum Leap explained - 3:07
6). Wave Particle duality explained - the Double slit experiment - 3:50
7). Schrödinger's equation explained - the "probability wave" - 6:09
7). How the act of measurement collapses a particle's wave function - 6:43
9). The Superposition Principle explained - 7:10
10). Schrödinger's cat explained - 8:19
11). Are particle's time traveling in the Double slit experiment? - 9:39
12). Many World's theory (Parallel universe's) explained - 12:23
13). Quantum Entanglement explained - 13:37
14). Spooky Action at a Distance explained - 14:09
15). Quantum Mechanics vs Einstein's explanation for Spooky action at a Distance (Bell's Theorem) - 15:40
16). Quantum Tunneling explained - 16:15
17). How the Sun Burns using Quantum Tunneling explained - 16:47
18). The Quantum Computer explained - 17:56
19). Quantum Teleportation explained - 18:24
20). Quantum Mechanics and General Relativity incompatibility explained. String theory - a possible theory of everything - introduced - 21:02
SOURCES:
Hunt for the Higgs - Horizon BBC documentary
Parallel Universes - Horizon BBC documentary
Quantum Mechanics - NOVA documentary, presented by Brian Greene
Inexplicable Universe - The Great Courses - presented by Neil deGrasse Tyson
wn.com/Quantum Mechanics For Dummies
Hi Everyone, today we're sharing Quantum Mechanics made simple! This 20 minute explanation covers the basics and should give you a good foundation for understanding the principles of Quantum Mechanics.
TOPICS COVERED:
1). What are atoms made of? - 00:30
2). What is a particle? - 00:30
3). The Standard Model of Elementary Particles explained - 1:40
4). Higgs Field and Higgs Boson explained - 2:34
5). Quantum Leap explained - 3:07
6). Wave Particle duality explained - the Double slit experiment - 3:50
7). Schrödinger's equation explained - the "probability wave" - 6:09
7). How the act of measurement collapses a particle's wave function - 6:43
9). The Superposition Principle explained - 7:10
10). Schrödinger's cat explained - 8:19
11). Are particle's time traveling in the Double slit experiment? - 9:39
12). Many World's theory (Parallel universe's) explained - 12:23
13). Quantum Entanglement explained - 13:37
14). Spooky Action at a Distance explained - 14:09
15). Quantum Mechanics vs Einstein's explanation for Spooky action at a Distance (Bell's Theorem) - 15:40
16). Quantum Tunneling explained - 16:15
17). How the Sun Burns using Quantum Tunneling explained - 16:47
18). The Quantum Computer explained - 17:56
19). Quantum Teleportation explained - 18:24
20). Quantum Mechanics and General Relativity incompatibility explained. String theory - a possible theory of everything - introduced - 21:02
SOURCES:
Hunt for the Higgs - Horizon BBC documentary
Parallel Universes - Horizon BBC documentary
Quantum Mechanics - NOVA documentary, presented by Brian Greene
Inexplicable Universe - The Great Courses - presented by Neil deGrasse Tyson
- published: 14 May 2015
- views: 228534
Quantum Mechanics: Animation explaining quantum physics
- Order: Reorder
- Duration: 25:47
- Updated: 23 Mar 2013
- views: 720775
Covers all topics, including wave particle duality, Schrodinger's cat, EPR / Bell inequality, and the relationship between measurement and entanglement. Quantu...
Covers all topics, including wave particle duality, Schrodinger's cat, EPR / Bell inequality, and the relationship between measurement and entanglement. Quantum Mechanics and Quantum Physics.
wn.com/Quantum Mechanics Animation Explaining Quantum Physics
Covers all topics, including wave particle duality, Schrodinger's cat, EPR / Bell inequality, and the relationship between measurement and entanglement. Quantum Mechanics and Quantum Physics.
- published: 23 Mar 2013
- views: 720775
THE AWAKENING – Quantum Mechanics of the Human Brain & Consciousness
- Order: Reorder
- Duration: 49:31
- Updated: 01 May 2015
- views: 520501
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Human Brain And Quantum Physics - Become Self Aware
Dr. Granville Dharm...
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Human Brain And Quantum Physics - Become Self Aware
Dr. Granville Dharmawardena of the University of Colombo writes that psychologists often speak of the mind and the body as two separate entities for convenience, but most acknowledge that they are intimately entwined. Yet none knows exactly how or how intimately. So the mind body problem keeps stubbornly resisting a definite solution. Philosopher John Searle (Mills Professor of Philosophy, University of California, and Berkley) says that today’s philosophers are reluctant to tackle such big problems as how people have been trying to understand their relationship to the universe.
All these refer to the elusive relationship between the body and the mind referred to more generally as the brain-mind problem. The brain-mind relationship has baffled mankind for a very long time. One main reason for this is that it was not considered as a candidate for scientific study until recently.
Psychology and related sciences were able to continue for many years by either ignoring the brain entirely or at best treating it as a black box whose rules of operation could be understood without reference to its internal contents or composition.
The human brain without doubt is the most complex organ in the known universe. It is physical and biological. Therefore, it has to be amenable to scientific probing without the intervention of such considerations as the Gödel’s theorem, which states that there are statements in mathematical systems which are true but cannot be proven within those systems.
Consciousness on the other hand is neither physical nor biological. Therefore, it is a more elusive subject to deal with and Gödel’s considerations may have a role to play there. Attempts to understand brain and consciousness have been mostly based on restrictive Newtonian classical science and exclusively the material realm composed of matter.
Although the powers of understanding of human senses and the scope of Newtonian science are limited to three spatial dimensions, the scope of our universe is not limited to three dimensions. In fact, news theories hypothesize there are eleven dimensions. Many of the natural phenomena happening within our universe transcend the three dimension scene. Therefore, it is not possible to assume that the mechanisms of operation of the brain and consciousness remain imprisoned within the confines of Isaac Newton’s three dimensional material universe. Just as the Earth was proved not to be the center of the universe, our current theories that govern our physical universe such as Einstein’s gravity theory and others may become obsolete in our understanding of reality.
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illuminati #music #illuminati #signs and symbols #illuminati #symbols
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wn.com/The Awakening – Quantum Mechanics Of The Human Brain Consciousness
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Human Brain And Quantum Physics - Become Self Aware
Dr. Granville Dharmawardena of the University of Colombo writes that psychologists often speak of the mind and the body as two separate entities for convenience, but most acknowledge that they are intimately entwined. Yet none knows exactly how or how intimately. So the mind body problem keeps stubbornly resisting a definite solution. Philosopher John Searle (Mills Professor of Philosophy, University of California, and Berkley) says that today’s philosophers are reluctant to tackle such big problems as how people have been trying to understand their relationship to the universe.
All these refer to the elusive relationship between the body and the mind referred to more generally as the brain-mind problem. The brain-mind relationship has baffled mankind for a very long time. One main reason for this is that it was not considered as a candidate for scientific study until recently.
Psychology and related sciences were able to continue for many years by either ignoring the brain entirely or at best treating it as a black box whose rules of operation could be understood without reference to its internal contents or composition.
The human brain without doubt is the most complex organ in the known universe. It is physical and biological. Therefore, it has to be amenable to scientific probing without the intervention of such considerations as the Gödel’s theorem, which states that there are statements in mathematical systems which are true but cannot be proven within those systems.
Consciousness on the other hand is neither physical nor biological. Therefore, it is a more elusive subject to deal with and Gödel’s considerations may have a role to play there. Attempts to understand brain and consciousness have been mostly based on restrictive Newtonian classical science and exclusively the material realm composed of matter.
Although the powers of understanding of human senses and the scope of Newtonian science are limited to three spatial dimensions, the scope of our universe is not limited to three dimensions. In fact, news theories hypothesize there are eleven dimensions. Many of the natural phenomena happening within our universe transcend the three dimension scene. Therefore, it is not possible to assume that the mechanisms of operation of the brain and consciousness remain imprisoned within the confines of Isaac Newton’s three dimensional material universe. Just as the Earth was proved not to be the center of the universe, our current theories that govern our physical universe such as Einstein’s gravity theory and others may become obsolete in our understanding of reality.
#Top, #Best, #HD, #Illuminati, #TopSecret, #Secret, #Security, #Sky, #Googlemap, #google, #youtube, #Uncensored, #nude, #certified, #Government, #CIA, #FBI, #NATO, #NASA, #State, #America, #VIP, #howto, #amazing, #cool, #highlights, #sexy, #moon, #space, #interview, #Advexon, #Bible, #Jesus, #New, #2014, #2015, #DocumentaryHD, #Documentary2015, #fulldocumentary, #crazy #love #NWO #RFID #chip #theory #conspiracy #california #sanfrancisco #japan #russia #china #korea #israel #isis #911 #666 #mustwatch
#meditation #telekinesis #psychokinesis, #spiritual #energy #chi #psi, psi-wheel, spoon-bending, #teleport, #supernatural #power, super-psychic, #precognition, #postcognition, #foretunetelling, clairvoyance, jinn #angels, #sprits, tarot card, foresee future, past present, #matrix #reality, #illusion, spirit #science, mentalist, #mind-reading #freedomtv #Advexonfreedom #worldgoverment #Federal #Reserve #Federalreserve #Worldwar #WW3 #Breakingnews #News #Worldnews #rfid #ISIS #terror #wakeup #Advexon illuminati #conspiracy
illuminati #music #illuminati #signs and symbols #illuminati #symbols
#Trilateral #Commission #Bank #Hitler #communism #fascism
#Russia #China #SovietUnion #FBI #CIA #MonetaryFund #Terrorist #FederalReserve #Administration #Investigation #Ritual #sacrifice #BCC #eye #pyramid #Media #news #GeorgeBush #justice #congress #JPMorgan #MorganStanley #Time #Oldest #Rockefeller #Rothschild #Taft #initiation #secrets #billionaire #loyalty #Bilderberg #keyposition #power #gold #oil #change #bulding7 #worldtrade #Antichrist #666 #senator #911 #NOVUSORDOSECLORUM #agenda21 #ebola #vaccine #zombie #Armageddon #end #apocalypse
- published: 01 May 2015
- views: 520501
Lecture 1 | Modern Physics: Quantum Mechanics (Stanford)
- Order: Reorder
- Duration: 111:11
- Updated: 10 Apr 2008
- views: 679547
Lecture 1 of Leonard Susskind's Modern Physics course concentrating on Quantum Mechanics. Recorded January 14, 2008 at Stanford University.
This Stanford Co...
Lecture 1 of Leonard Susskind's Modern Physics course concentrating on Quantum Mechanics. Recorded January 14, 2008 at Stanford University.
This Stanford Continuing Studies course is the second of a six-quarter sequence of classes exploring the essential theoretical foundations of modern physics. The topics covered in this course focus on quantum mechanics. Leonard Susskind is the Felix Bloch Professor of Physics at Stanford University.
Complete playlist for the course:
http://youtube.com/view_play_list?p=189C0DCE90CB6D81
Stanford Continuing Studies: http://continuingstudies.stanford.edu/
About Leonard Susskind: http://www.stanford.edu/dept/physics/people/faculty/susskind_leonard.html
Stanford University channel on YouTube:
http://www.youtube.com/stanford
wn.com/Lecture 1 | Modern Physics Quantum Mechanics (Stanford)
Lecture 1 of Leonard Susskind's Modern Physics course concentrating on Quantum Mechanics. Recorded January 14, 2008 at Stanford University.
This Stanford Continuing Studies course is the second of a six-quarter sequence of classes exploring the essential theoretical foundations of modern physics. The topics covered in this course focus on quantum mechanics. Leonard Susskind is the Felix Bloch Professor of Physics at Stanford University.
Complete playlist for the course:
http://youtube.com/view_play_list?p=189C0DCE90CB6D81
Stanford Continuing Studies: http://continuingstudies.stanford.edu/
About Leonard Susskind: http://www.stanford.edu/dept/physics/people/faculty/susskind_leonard.html
Stanford University channel on YouTube:
http://www.youtube.com/stanford
- published: 10 Apr 2008
- views: 679547
The Origin of Quantum Mechanics (feat. Neil Turok)
- Order: Reorder
- Duration: 4:20
- Updated: 14 Oct 2012
- views: 2390380
Check out the Massey Lectures with Neil Turok: http://dft.ba/-massey
Perimeter Institute for Theoretical Physics: http://pitp.ca
MinutePhysics is on Google+ - ...
Check out the Massey Lectures with Neil Turok: http://dft.ba/-massey
Perimeter Institute for Theoretical Physics: http://pitp.ca
MinutePhysics is on Google+ - http://bit.ly/qzEwc6
And facebook - http://facebook.com/minutephysics
And twitter - @minutephysics
Minute Physics provides an energetic and entertaining view of old and new problems in physics -- all in a minute!
Music by Nathaniel Schroeder: http://www.soundcloud.com/drschroeder
Thanks to Nima Doroud and Bruno LeFloch for contributions and to Perimeter Institute for support.
http://www.perimeterinstitute.ca
Produced in association with the 2012 Massey Lecture Series http://dft.ba/-massey
wn.com/The Origin Of Quantum Mechanics (Feat. Neil Turok)
Check out the Massey Lectures with Neil Turok: http://dft.ba/-massey
Perimeter Institute for Theoretical Physics: http://pitp.ca
MinutePhysics is on Google+ - http://bit.ly/qzEwc6
And facebook - http://facebook.com/minutephysics
And twitter - @minutephysics
Minute Physics provides an energetic and entertaining view of old and new problems in physics -- all in a minute!
Music by Nathaniel Schroeder: http://www.soundcloud.com/drschroeder
Thanks to Nima Doroud and Bruno LeFloch for contributions and to Perimeter Institute for support.
http://www.perimeterinstitute.ca
Produced in association with the 2012 Massey Lecture Series http://dft.ba/-massey
- published: 14 Oct 2012
- views: 2390380
Measure for Measure: Quantum Physics and Reality
- Order: Reorder
- Duration: 98:44
- Updated: 20 Jun 2014
- views: 507043
When no one is looking, a particle has near limitless potential: it can be nearly anywhere. But measure it, and the particle snaps to one position. How do subat...
When no one is looking, a particle has near limitless potential: it can be nearly anywhere. But measure it, and the particle snaps to one position. How do subatomic objects shed their quantum weirdness? Experts in the field of physics, including David Z. Albert, Sean Carroll, Sheldon Goldstein, Ruediger Schack, and moderator Brian Greene, discuss the history of quantum mechanics, current theories in the field, and possibilities for the future.
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Participants: David Z. Albert, Sean Carroll, Sheldon Goldstein, Ruediger Schack
Original Program date: May 29, 2014
Brian Greene's Introduction. 00:10
The double-slit experiment 4:03
Waves of probability. 10:50
Participant Introductions. 17:55
The classic outlook changed forever. 19:41
The Norman Ramsey approach to quantum mechanics. 22:44
The quantum measurement problem. 28:45
Does there need to be a clear separation between the quantum description and the observer? 31:44
How does the double slit fit into this example? 38:49
The many worlds approach to quantum mechanics. 45:48
If we can't see the other worlds, isn't that equal to believing in god or angels? 50:45
Summing up the many worlds theory. 59:52
Spontaneous collapse theory. 1:00:04
How do you make this theory precise. 1:08:00
Tallying the votes for collapse theory. 1:13:27
What is Qbism? 1:14:00
Does cubism gives a description of the world that needs an observer? 1:19:25
Two equations vs one. 1:27:04
The final vote for Qbism. 1:30:20
wn.com/Measure For Measure Quantum Physics And Reality
When no one is looking, a particle has near limitless potential: it can be nearly anywhere. But measure it, and the particle snaps to one position. How do subatomic objects shed their quantum weirdness? Experts in the field of physics, including David Z. Albert, Sean Carroll, Sheldon Goldstein, Ruediger Schack, and moderator Brian Greene, discuss the history of quantum mechanics, current theories in the field, and possibilities for the future.
Subscribe to our YouTube Channel for all the latest from WSF.
Visit our Website: http://www.worldsciencefestival.com/
Like us on Facebook: https://www.facebook.com/worldsciencefestival
Follow us on twitter: https://twitter.com/WorldSciFest
Participants: David Z. Albert, Sean Carroll, Sheldon Goldstein, Ruediger Schack
Original Program date: May 29, 2014
Brian Greene's Introduction. 00:10
The double-slit experiment 4:03
Waves of probability. 10:50
Participant Introductions. 17:55
The classic outlook changed forever. 19:41
The Norman Ramsey approach to quantum mechanics. 22:44
The quantum measurement problem. 28:45
Does there need to be a clear separation between the quantum description and the observer? 31:44
How does the double slit fit into this example? 38:49
The many worlds approach to quantum mechanics. 45:48
If we can't see the other worlds, isn't that equal to believing in god or angels? 50:45
Summing up the many worlds theory. 59:52
Spontaneous collapse theory. 1:00:04
How do you make this theory precise. 1:08:00
Tallying the votes for collapse theory. 1:13:27
What is Qbism? 1:14:00
Does cubism gives a description of the world that needs an observer? 1:19:25
Two equations vs one. 1:27:04
The final vote for Qbism. 1:30:20
- published: 20 Jun 2014
- views: 507043
Entanglement and Complexity: Gravity and Quantum Mechanics
- Order: Reorder
- Duration: 74:25
- Updated: 07 Nov 2015
- views: 19992
Professor Leonard Susskind describes how gravity and quantum information theory have come together to create a new way of thinking about physical systems. From ...
Professor Leonard Susskind describes how gravity and quantum information theory have come together to create a new way of thinking about physical systems. From fluid dynamics to strange metals, from black holes to the foundations of quantum mechanics, almost all areas of physics are being touched by the new paradigm.
wn.com/Entanglement And Complexity Gravity And Quantum Mechanics
Professor Leonard Susskind describes how gravity and quantum information theory have come together to create a new way of thinking about physical systems. From fluid dynamics to strange metals, from black holes to the foundations of quantum mechanics, almost all areas of physics are being touched by the new paradigm.
- published: 07 Nov 2015
- views: 19992
Quantum Mechanics explained in 60 seconds by Brian Cox - BBC News
- Order: Reorder
- Duration: 1:22
- Updated: 23 Sep 2014
- views: 192014
Subscribe to BBC News www.youtube.com/bbcnews
British physicist Brian Cox is challenged by the presenter of Radio 4's 'Life Scientific', Jim Al-Khalili, to expl...
Subscribe to BBC News www.youtube.com/bbcnews
British physicist Brian Cox is challenged by the presenter of Radio 4's 'Life Scientific', Jim Al-Khalili, to explain the rules of quantum mechanics in just a minute. Brian succeeds; while conceding that the idea that everything is inherently probabilistic, is challenging. Even Einstein found it difficult.
http://www.bbc.co.uk/programmes/b04hvx9z
Subscribe to BBC News HERE http://bit.ly/1rbfUog
Check out our website: http://www.bbc.com/news
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Instagram: http://instagram.com/bbcnews
wn.com/Quantum Mechanics Explained In 60 Seconds By Brian Cox BBC News
Subscribe to BBC News www.youtube.com/bbcnews
British physicist Brian Cox is challenged by the presenter of Radio 4's 'Life Scientific', Jim Al-Khalili, to explain the rules of quantum mechanics in just a minute. Brian succeeds; while conceding that the idea that everything is inherently probabilistic, is challenging. Even Einstein found it difficult.
http://www.bbc.co.uk/programmes/b04hvx9z
Subscribe to BBC News HERE http://bit.ly/1rbfUog
Check out our website: http://www.bbc.com/news
Facebook: http://www.facebook.com/bbcworldnews
Twitter: http://www.twitter.com/bbcworld
Instagram: http://instagram.com/bbcnews
- published: 23 Sep 2014
- views: 192014
25 Ways That Quantum Mechanics Changed Our View Of Reality
- Order: Reorder
- Duration: 9:41
- Updated: 13 Jan 2015
- views: 108685
Quantum Mechanics is one of the breakthroughs in science that enabled scientists to explain phenomena at the level of atomic and sub-atomic particles. As the Qu...
Quantum Mechanics is one of the breakthroughs in science that enabled scientists to explain phenomena at the level of atomic and sub-atomic particles. As the Quantum theory progressed, the more “mysteries” it begin to tackle which prompted Einstein to say, “the more success the quantum theory has, the sillier it looks.” It’s no surprise that quantum mechanics has had a huge impact on our view of reality, see what we mean with these 25 ways that quantum mechanics changed our view of the universe.
Follow us on:
Twitter: https://twitter.com/list25
Facebook: https://www.facebook.com/list25
Website: http://list25.com
Check out the physical list at - http://list25.com/25-ways-that-quantum-mechanics-changed-our-view-of-the-universe/
Preview:
Everything we know stands in a theory
The universe may be a hologram
The more technology improves, the more imprecise innovations become
Light can be controlled and concentrated for different functions
Randomness can be calculated and predicted
Objects behave differently when measured
There exists more than one universe
There is more than one dimension
Reality is an application of Holodynamics
Light is an object that can be consumed and disintegrated
Electromagnetic field current can be controlled
Light can be used for certain electronic devices to function
Jewel like geometry challenges deeply held notions of quantum physics
Light can be used as transportation
The sun’s light can be used for other technologies
Electricity can now be used internally in medicine
There is a particle that gives mass to even the tiniest forms of matter
Liquids can defy the force of gravity
People can travel through time backwards or forward
Data can now be transferred faster than ever before
Air turbulence can be controlled
and more...in the video...
wn.com/25 Ways That Quantum Mechanics Changed Our View Of Reality
Quantum Mechanics is one of the breakthroughs in science that enabled scientists to explain phenomena at the level of atomic and sub-atomic particles. As the Quantum theory progressed, the more “mysteries” it begin to tackle which prompted Einstein to say, “the more success the quantum theory has, the sillier it looks.” It’s no surprise that quantum mechanics has had a huge impact on our view of reality, see what we mean with these 25 ways that quantum mechanics changed our view of the universe.
Follow us on:
Twitter: https://twitter.com/list25
Facebook: https://www.facebook.com/list25
Website: http://list25.com
Check out the physical list at - http://list25.com/25-ways-that-quantum-mechanics-changed-our-view-of-the-universe/
Preview:
Everything we know stands in a theory
The universe may be a hologram
The more technology improves, the more imprecise innovations become
Light can be controlled and concentrated for different functions
Randomness can be calculated and predicted
Objects behave differently when measured
There exists more than one universe
There is more than one dimension
Reality is an application of Holodynamics
Light is an object that can be consumed and disintegrated
Electromagnetic field current can be controlled
Light can be used for certain electronic devices to function
Jewel like geometry challenges deeply held notions of quantum physics
Light can be used as transportation
The sun’s light can be used for other technologies
Electricity can now be used internally in medicine
There is a particle that gives mass to even the tiniest forms of matter
Liquids can defy the force of gravity
People can travel through time backwards or forward
Data can now be transferred faster than ever before
Air turbulence can be controlled
and more...in the video...
- published: 13 Jan 2015
- views: 108685
What can Schrödinger's cat teach us about quantum mechanics? - Josh Samani
- Order: Reorder
- Duration: 5:24
- Updated: 21 Aug 2014
- views: 346303
View full lesson: http://ed.ted.com/lessons/what-can-schrodinger-s-cat-teach-us-about-quantum-mechanics-josh-samani
The classical physics that we encounter in ...
View full lesson: http://ed.ted.com/lessons/what-can-schrodinger-s-cat-teach-us-about-quantum-mechanics-josh-samani
The classical physics that we encounter in our everyday, macroscopic world is very different from the quantum physics that governs systems on a much smaller scale (like atoms). One great example of quantum physics’ weirdness can be shown in the Schrödinger's cat thought experiment. Josh Samani walks us through this experiment in quantum entanglement.
Lesson by Josh Samani, animation by Dan Pinto.
wn.com/What Can Schrödinger's Cat Teach US About Quantum Mechanics Josh Samani
View full lesson: http://ed.ted.com/lessons/what-can-schrodinger-s-cat-teach-us-about-quantum-mechanics-josh-samani
The classical physics that we encounter in our everyday, macroscopic world is very different from the quantum physics that governs systems on a much smaller scale (like atoms). One great example of quantum physics’ weirdness can be shown in the Schrödinger's cat thought experiment. Josh Samani walks us through this experiment in quantum entanglement.
Lesson by Josh Samani, animation by Dan Pinto.
- published: 21 Aug 2014
- views: 346303
Quantum Mechanics Explained or Quantum Theory For Dummies
- Order: Reorder
- Duration: 52:50
- Updated: 27 Feb 2013
- views: 265108
This is one of the best lessons I have seen if someone wants to understand quantum physics or quantum mechanics.
This is one of the best lessons I have seen if someone wants to understand quantum physics or quantum mechanics.
wn.com/Quantum Mechanics Explained Or Quantum Theory For Dummies
This is one of the best lessons I have seen if someone wants to understand quantum physics or quantum mechanics.
- published: 27 Feb 2013
- views: 265108
Quantum Theory Made Easy [1]
- Order: Reorder
- Duration: 31:09
- Updated: 18 Jul 2015
- views: 405158
“Quantum Theory Made Easy,” a series in which the concepts of quantum physics are broken down for layaudiences in a more digestable manner. More in-depth than m...
“Quantum Theory Made Easy,” a series in which the concepts of quantum physics are broken down for layaudiences in a more digestable manner. More in-depth than most presentations for laypersons, but without the mathematical rigour needed by a specialist in the field.
So, you've heard that light is a wave/particle. Now you get to find out how we know this!
In this episode, we’ll be discussing the dual nature of light, starting with a brief overview of how light was determined to be an electromagnetic wave and what properties light was classically associated with. From there, we’ll present the results of Planck’s blackbody experiments and introduce the concept of quantization, which was how this whole quantum mess was started in the first place. After explaining how the quantum of action (h) works, we’ll move on to how it showed up in experiments that challenged the wave picture of light, and how Einstein, bremsstrahlung, and Compton, made it clear that light can behave like a particle.
If you enjoyed this video, please give it a like. If you want to help support the propagation of this material, please press the “favorite” button, and if you’re feeling particularly proactive, please share it on your social media of choice. And of course, if you’re new to this channel, or have just been lurking about but aren’t sure if you’re ready to commit, just take a risk and press that subscribe button (there’s actually no risk involved. Like, at all. Just subscribe already.)
Special thanks goes to the following resources for their (Fair-Use protected) material:
Best of Science
https://www.youtube.com/user/Best0fScience/videos
UC Berkeley
https://www.youtube.com/user/UCBerkeley
Stellardrone
If you want to support the creation of these videos, or just want to see your name appear at the end of them, click here: https://www.patreon.com/user?u=581251&u;=581251&ty;=h
wn.com/Quantum Theory Made Easy 1
“Quantum Theory Made Easy,” a series in which the concepts of quantum physics are broken down for layaudiences in a more digestable manner. More in-depth than most presentations for laypersons, but without the mathematical rigour needed by a specialist in the field.
So, you've heard that light is a wave/particle. Now you get to find out how we know this!
In this episode, we’ll be discussing the dual nature of light, starting with a brief overview of how light was determined to be an electromagnetic wave and what properties light was classically associated with. From there, we’ll present the results of Planck’s blackbody experiments and introduce the concept of quantization, which was how this whole quantum mess was started in the first place. After explaining how the quantum of action (h) works, we’ll move on to how it showed up in experiments that challenged the wave picture of light, and how Einstein, bremsstrahlung, and Compton, made it clear that light can behave like a particle.
If you enjoyed this video, please give it a like. If you want to help support the propagation of this material, please press the “favorite” button, and if you’re feeling particularly proactive, please share it on your social media of choice. And of course, if you’re new to this channel, or have just been lurking about but aren’t sure if you’re ready to commit, just take a risk and press that subscribe button (there’s actually no risk involved. Like, at all. Just subscribe already.)
Special thanks goes to the following resources for their (Fair-Use protected) material:
Best of Science
https://www.youtube.com/user/Best0fScience/videos
UC Berkeley
https://www.youtube.com/user/UCBerkeley
Stellardrone
If you want to support the creation of these videos, or just want to see your name appear at the end of them, click here: https://www.patreon.com/user?u=581251&u;=581251&ty;=h
- published: 18 Jul 2015
- views: 405158
Brian Greene and Alan Alda Discuss Why Einstein Hated Quantum Mechanics
- Order: Reorder
- Duration: 15:14
- Updated: 10 Jul 2014
- views: 144107
Albert Einstein was not a fan of quantum mechanics. He was annoyed by the uncertain, random nature of the universe it implied (hence the famous quote "God does ...
Albert Einstein was not a fan of quantum mechanics. He was annoyed by the uncertain, random nature of the universe it implied (hence the famous quote "God does not play dice with the universe"). So, Einstein tried to develop a unified theory that would circumvent what he saw as quantum mechanics' flaws. In this excerpt from the 2014 World Science Festival Program Dear Albert, Alan Alda and Brian Greene discuss Einstein's relationship with the "unruly child" of quantum mechanics, and how the famed physicist came up with the Special Theory of Relativity.
Original Program Date: May 28, 2014
Subscribe to our YouTube Channel for all the latest from WSF.
Visit our Website: http://www.worldsciencefestival.com/
Like us on Facebook: https://www.facebook.com/worldsciencefestival
Follow us on twitter: https://twitter.com/WorldSciFest
wn.com/Brian Greene And Alan Alda Discuss Why Einstein Hated Quantum Mechanics
Albert Einstein was not a fan of quantum mechanics. He was annoyed by the uncertain, random nature of the universe it implied (hence the famous quote "God does not play dice with the universe"). So, Einstein tried to develop a unified theory that would circumvent what he saw as quantum mechanics' flaws. In this excerpt from the 2014 World Science Festival Program Dear Albert, Alan Alda and Brian Greene discuss Einstein's relationship with the "unruly child" of quantum mechanics, and how the famed physicist came up with the Special Theory of Relativity.
Original Program Date: May 28, 2014
Subscribe to our YouTube Channel for all the latest from WSF.
Visit our Website: http://www.worldsciencefestival.com/
Like us on Facebook: https://www.facebook.com/worldsciencefestival
Follow us on twitter: https://twitter.com/WorldSciFest
- published: 10 Jul 2014
- views: 144107
Easy Quantum Mechanics
- Order: Reorder
- Duration: 5:18
- Updated: 02 Jan 2011
- views: 118326
This is a relativity simple animation expalaining quantum mechanics for those unedcuated in this subject.
Warning - no rights reseved
This is a relativity simple animation expalaining quantum mechanics for those unedcuated in this subject.
Warning - no rights reseved
wn.com/Easy Quantum Mechanics
This is a relativity simple animation expalaining quantum mechanics for those unedcuated in this subject.
Warning - no rights reseved
- published: 02 Jan 2011
- views: 118326
Richard Feynman on Quantum Mechanics Part 1 - Photons Corpuscles of Light
- Order: Reorder
- Duration: 77:58
- Updated: 16 Oct 2011
- views: 703480
Breaking barriers with quantum physics | Dr. Shohini Ghose | TEDxNickelCity
- Order: Reorder
- Duration: 15:18
- Updated: 27 Nov 2014
- views: 137305
This talk was given at a local TEDx event, produced independently of the TED Conferences. Dr. Shohini Ghose talks about how the laws of quantum mechanics may be...
This talk was given at a local TEDx event, produced independently of the TED Conferences. Dr. Shohini Ghose talks about how the laws of quantum mechanics may be harnessed to develop next generation computers and novel protocols like teleportation.
Shohini Ghose is an Associate Professor of Physics and Computer Science at
Wilfrid Laurier University and an Affiliate of the Perimeter Institute for Theoretical Physics.
She and her co-workers also made the first-ever movies of cesium atoms that demonstrate how the "butterfly effect" of chaos can impact quantum correlations or 'entanglement'.
Dr. Ghose was awarded the prestigious Sera Bangali award for her contributions to science and she is also a member of the TED Fellowship for 2014. With much accolades and accomplishments, Dr. Ghose is also the founding Director for Wilfrid Laurier University's Centre for Women in Science which aims to build a diverse community in science through research, action and communication.
She also recently co-authored the first Canadian undergraduate Introductory Astronomy textbook, which is now being used in several universities in Canada.
About TEDx, x = independently organized event In the spirit of ideas worth spreading, TEDx is a program of local, self-organized events that bring people together to share a TED-like experience. At a TEDx event, TEDTalks video and live speakers combine to spark deep discussion and connection in a small group. These local, self-organized events are branded TEDx, where x = independently organized TED event. The TED Conference provides general guidance for the TEDx program, but individual TEDx events are self-organized.* (*Subject to certain rules and regulations)
wn.com/Breaking Barriers With Quantum Physics | Dr. Shohini Ghose | Tedxnickelcity
This talk was given at a local TEDx event, produced independently of the TED Conferences. Dr. Shohini Ghose talks about how the laws of quantum mechanics may be harnessed to develop next generation computers and novel protocols like teleportation.
Shohini Ghose is an Associate Professor of Physics and Computer Science at
Wilfrid Laurier University and an Affiliate of the Perimeter Institute for Theoretical Physics.
She and her co-workers also made the first-ever movies of cesium atoms that demonstrate how the "butterfly effect" of chaos can impact quantum correlations or 'entanglement'.
Dr. Ghose was awarded the prestigious Sera Bangali award for her contributions to science and she is also a member of the TED Fellowship for 2014. With much accolades and accomplishments, Dr. Ghose is also the founding Director for Wilfrid Laurier University's Centre for Women in Science which aims to build a diverse community in science through research, action and communication.
She also recently co-authored the first Canadian undergraduate Introductory Astronomy textbook, which is now being used in several universities in Canada.
About TEDx, x = independently organized event In the spirit of ideas worth spreading, TEDx is a program of local, self-organized events that bring people together to share a TED-like experience. At a TEDx event, TEDTalks video and live speakers combine to spark deep discussion and connection in a small group. These local, self-organized events are branded TEDx, where x = independently organized TED event. The TED Conference provides general guidance for the TEDx program, but individual TEDx events are self-organized.* (*Subject to certain rules and regulations)
- published: 27 Nov 2014
- views: 137305
What is Spin? | Quantum Mechanics
- Order: Reorder
- Duration: 10:17
- Updated: 31 Jul 2015
- views: 49841
Research assignment: Teach me about spin.
Below there are suggested questions, recommended sources and my social media accounts:
QUESTIONS:
Questions that req...
Research assignment: Teach me about spin.
Below there are suggested questions, recommended sources and my social media accounts:
QUESTIONS:
Questions that require less research:
1. This is our first real example of quantization, the phenomena that gives quantum mechanics it’s name. Here’s what it means. In the classical case of magnets going through a Stern Gerlach machine, the magnets can end up any where in the range. But in quantum mechanics, its can only be exactly up or down, these discrete values rather than a continuous range in between. This sort of quantization really bothered physicists. Can you understand why? And is there any classical physics phenomenon that also has sort of quantization?
2. Do you think that eventually all quantities in physics can be explained in terms of deeper physics? Are there any examples of quantities that later on did get explained through a more encompassing theory?
3. How can you use the Stern-Gerlach machine to measure spin in the ‘forward-backward’ direction?
4. Why do half the particles go left, half right at 4:24?
Questions that (probably) require research:
5. What are bosons and fermions? What’s spin got to do with it? If you really want to get into it, read ch 4, volume 3 of The Feynman Lectures: http://www.feynmanlectures.caltech.edu/III_toc.html
6. Electrons are so-called spin 1/2 particles. Are there any other spin types? What determines what spin a particle will have?
7. How does spin relate to the Pauli exclusion principle?
8. Explain how the Stern-Gerlach machine works
9. Is light polarization a type of spin? What are arguments for and against this? What spin does a photon have (spin 1/2, spin 1 etc)?
10. Why is it that charged particles moving causes magnetic fields- according to Einstein? (Look up relativity and electromagnetism)
11. What’s wrong with saying the electron is infinitely small? What experiments measure the electrons size? Are protons also infinitely small?
12. Find other reasons we don’t believe electrons are actually spinning. (An interesting one is about rotating a spin particle 360 degrees, and not getting back the exact same wavefunction.)
13. a) What is the Bloch Sphere, and why can we use it to represent spin? How do you visualise the spin left state on it? how about spin forward? (http://comp.uark.edu/~jgeabana/blochapps/bloch.html , note that a 2-level system is any particle that only has two options when measured (eg only up or down). |0) and |1) are the generic labels we’ll put on these options)
b) Also, How do you write spin forward in terms of up and down (i.e. |forward)=a|up)+b|down))? You will probably need to look this up, so it’s useful to know the spin “up/down”ness is usually called spin in the z direction, spin “left/right”ness is spin in the x direction, and spin “forward/backward” is spin in the y direction. You can figure this out by looking at the Bloch sphere.
14. Magnetic Resonance Imaginging (MRI) is an important clinical technic that completely relies on manipulating spin. Explain it! http://www.scholarpedia.org/article/Magnetic_resonance_imaging
15. What happens to the electrons if you put them into the Stern-Gerlach machine and then slowly rotated from up and down to side and side, do some of the electrons switch places? (Thank you Majoofi)
16. Why aren't there magnetic monopoles? (Thanks Culwin)
17. What is isospin? Why is it that, even though it hasn't got the units of angular momentum, it still 'formally acts like spin?' according to Wiki? (Thanks Hythloday71)
RECOMMENDED SOURCES ON SPIN
The Feynman lectures, Volume 3: http://www.feynmanlectures.caltech.edu/III_toc.html
Quantum Physics of Atoms, Molecules, Solids, Nuclei, and Particle Physics- Eisberg and Resnick, the chapters of angular momentum and spin. This is a good one if you already know basic classical electromagnetism. Don't buy it, just visit your local university library and just read it there.
Sneaking a Look at God's Cards - Ghirardi. This is one of my favourite quantum books. It talks about the Stern-Gerlach experiment.
Wikipedia or Scholarpedia. These are always a good place to start- though sometimes they can throw you into the maths. Don't panic if you don't get all of it. Just try to glean the main idea, and that's more than enough to report here. Hopefully then others can help with any details that were confusing.
The Story of Spin. Thank you Michael Sommers for the recommendation. I haven't read it, but it seems good! Hard to find though.
https://www.goodreads.com/book/show/1349918.The_Story_of_Spin
A Veritasium and Minute Physics video about electromagnetism! Thanks EnellGmz for reminding me about it. https://youtu.be/1TKSfAkWWN0
SOCIAL MEDIA:
Twitter:
@Looking_glass_u
Facebook
www.facebook.com/LookingGlassUniverse
Tumblr
http://looking-glass-universe.tumblr.com/
wn.com/What Is Spin | Quantum Mechanics
Research assignment: Teach me about spin.
Below there are suggested questions, recommended sources and my social media accounts:
QUESTIONS:
Questions that require less research:
1. This is our first real example of quantization, the phenomena that gives quantum mechanics it’s name. Here’s what it means. In the classical case of magnets going through a Stern Gerlach machine, the magnets can end up any where in the range. But in quantum mechanics, its can only be exactly up or down, these discrete values rather than a continuous range in between. This sort of quantization really bothered physicists. Can you understand why? And is there any classical physics phenomenon that also has sort of quantization?
2. Do you think that eventually all quantities in physics can be explained in terms of deeper physics? Are there any examples of quantities that later on did get explained through a more encompassing theory?
3. How can you use the Stern-Gerlach machine to measure spin in the ‘forward-backward’ direction?
4. Why do half the particles go left, half right at 4:24?
Questions that (probably) require research:
5. What are bosons and fermions? What’s spin got to do with it? If you really want to get into it, read ch 4, volume 3 of The Feynman Lectures: http://www.feynmanlectures.caltech.edu/III_toc.html
6. Electrons are so-called spin 1/2 particles. Are there any other spin types? What determines what spin a particle will have?
7. How does spin relate to the Pauli exclusion principle?
8. Explain how the Stern-Gerlach machine works
9. Is light polarization a type of spin? What are arguments for and against this? What spin does a photon have (spin 1/2, spin 1 etc)?
10. Why is it that charged particles moving causes magnetic fields- according to Einstein? (Look up relativity and electromagnetism)
11. What’s wrong with saying the electron is infinitely small? What experiments measure the electrons size? Are protons also infinitely small?
12. Find other reasons we don’t believe electrons are actually spinning. (An interesting one is about rotating a spin particle 360 degrees, and not getting back the exact same wavefunction.)
13. a) What is the Bloch Sphere, and why can we use it to represent spin? How do you visualise the spin left state on it? how about spin forward? (http://comp.uark.edu/~jgeabana/blochapps/bloch.html , note that a 2-level system is any particle that only has two options when measured (eg only up or down). |0) and |1) are the generic labels we’ll put on these options)
b) Also, How do you write spin forward in terms of up and down (i.e. |forward)=a|up)+b|down))? You will probably need to look this up, so it’s useful to know the spin “up/down”ness is usually called spin in the z direction, spin “left/right”ness is spin in the x direction, and spin “forward/backward” is spin in the y direction. You can figure this out by looking at the Bloch sphere.
14. Magnetic Resonance Imaginging (MRI) is an important clinical technic that completely relies on manipulating spin. Explain it! http://www.scholarpedia.org/article/Magnetic_resonance_imaging
15. What happens to the electrons if you put them into the Stern-Gerlach machine and then slowly rotated from up and down to side and side, do some of the electrons switch places? (Thank you Majoofi)
16. Why aren't there magnetic monopoles? (Thanks Culwin)
17. What is isospin? Why is it that, even though it hasn't got the units of angular momentum, it still 'formally acts like spin?' according to Wiki? (Thanks Hythloday71)
RECOMMENDED SOURCES ON SPIN
The Feynman lectures, Volume 3: http://www.feynmanlectures.caltech.edu/III_toc.html
Quantum Physics of Atoms, Molecules, Solids, Nuclei, and Particle Physics- Eisberg and Resnick, the chapters of angular momentum and spin. This is a good one if you already know basic classical electromagnetism. Don't buy it, just visit your local university library and just read it there.
Sneaking a Look at God's Cards - Ghirardi. This is one of my favourite quantum books. It talks about the Stern-Gerlach experiment.
Wikipedia or Scholarpedia. These are always a good place to start- though sometimes they can throw you into the maths. Don't panic if you don't get all of it. Just try to glean the main idea, and that's more than enough to report here. Hopefully then others can help with any details that were confusing.
The Story of Spin. Thank you Michael Sommers for the recommendation. I haven't read it, but it seems good! Hard to find though.
https://www.goodreads.com/book/show/1349918.The_Story_of_Spin
A Veritasium and Minute Physics video about electromagnetism! Thanks EnellGmz for reminding me about it. https://youtu.be/1TKSfAkWWN0
SOCIAL MEDIA:
Twitter:
@Looking_glass_u
Facebook
www.facebook.com/LookingGlassUniverse
Tumblr
http://looking-glass-universe.tumblr.com/
- published: 31 Jul 2015
- views: 49841
Documentaries 2015 - Mystery of Quantum Physics
- Order: Reorder
- Duration: 52:51
- Updated: 15 Sep 2015
- views: 31866
[Documentaries 2015] Mystery of Quantum Physics - National Geographic Documentary.
Quantum mechanics (QM; also known as quantum physics, or quantum theory), inc...
[Documentaries 2015] Mystery of Quantum Physics - National Geographic Documentary.
Quantum mechanics (QM; also known as quantum physics, or quantum theory), including quantum field theory, is a fundamental branch of physics concerned with processes involving, for example, atoms and photons. In such processes, said to be quantized, the action has been observed to be only in integer multiples of the Planck constant, a physical quantity that is exceedingly, indeed perhaps ultimately, small. This is utterly inexplicable in classical physics.
Quantum mechanics gradually arose from Max Planck's solution in 1900 to the black-body radiation problem (reported 1859) and Albert Einstein's 1905 paper which offered a quantum-based theory to explain the photoelectric effect (reported 1887). Early quantum theory was significantly reformulated in the mid-1920s.
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[Documentaries 2015] Mystery of Quantum Physics - National Geographic Documentary.
Quantum mechanics (QM; also known as quantum physics, or quantum theory), including quantum field theory, is a fundamental branch of physics concerned with processes involving, for example, atoms and photons. In such processes, said to be quantized, the action has been observed to be only in integer multiples of the Planck constant, a physical quantity that is exceedingly, indeed perhaps ultimately, small. This is utterly inexplicable in classical physics.
Quantum mechanics gradually arose from Max Planck's solution in 1900 to the black-body radiation problem (reported 1859) and Albert Einstein's 1905 paper which offered a quantum-based theory to explain the photoelectric effect (reported 1887). Early quantum theory was significantly reformulated in the mid-1920s.
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- published: 15 Sep 2015
- views: 31866
Quantum Physics Debunks Materialism
- Order: Reorder
- Duration: 17:30
- Updated: 01 Nov 2013
- views: 345473
To help support this ministry click here: http://www.patreon.com/inspiringphilosophy
Materialism has been dead for decades now and recent research only reconfi...
To help support this ministry click here: http://www.patreon.com/inspiringphilosophy
Materialism has been dead for decades now and recent research only reconfirms this and goes even further, as this video will show. It ends with a brief introduction to the Cosmic Conscious Argument for God's existence.
Thanks to Johanan Raatz for helping make this video. Check out his channel here:
youtube.com/JohananRaatz
Translated into "Simplified Chinese" by Alice Zhou.
Sources:
Opening Quote from "Symmetries and Reflections: Scientific Essays" page 176
http://www.youtube.com/watch?v=DfPeprQ7oGc
The Quantum Enigma
Observation in Quantum Mechanics and the 'Collapse of the Wavefunction'
http://adsabs.harvard.edu/abs/1961ZPhy..161..454J
http://prola.aps.org/abstract/PR/v47/i10/p777_1
http://philoscience.unibe.ch/documents/TexteHS10/bell1964epr.pdf
http://www.nature.com/nature/journal/v446/n7138/full/446866a.html
https://www.youtube.com/watch?v=mvMx1baJwpA
http://link.springer.com/article/10.1023%2FA%3A1026096313729
http://arxiv.org/abs/0704.2529
http://physicsworld.com/cws/article/news/2007/apr/20/quantum-physics-says-goodbye-to-reality
https://www.youtube.com/watch?v=nttB3Wze3Y8
http://arxiv.org/abs/quant-ph/9903047
http://www.bottomlayer.com/bottom/kim-scully/kim-scully-web.htm
http://arxiv.org/abs/1106.4481
http://www.newscientist.com/article/dn20600-quantum-magic-trick-shows-reality-is-what-you-make-it.html
http://www.youtube.com/watch?v=LiNJRh2fxY8
http://arxiv.org/abs/1206.6578
http://www.nature.com/news/2007/070416/full/070416-9.html
http://arxiv.org/abs/1207.5294
http://www.pnas.org/content/early/2011/01/04/1005774108
http://meetings.aps.org/Meeting/MAR07/Event/57254
http://www.nature.com/nnano/journal/v7/n5/full/nnano.2012.34.html
http://www.livescience.com/19268-quantum-double-slit-experiment-largest-molecules.html
http://arxiv.org/abs/0909.1469
http://www.nature.com/news/2011/050411/full/news.2011.210.html
http://www.wired.com/wiredscience/2009/09/quantum-entanglement/
http://www.nature.com/news/2010/100317/full/news.2010.130.html
http://arxiv.org/pdf/0801.0337
The God Theory
http://henry.pha.jhu.edu/aspect.html
http://vimeo.com/26318064
Music Credits:
Two Steps From Hell -The Truth Unravels
https://www.youtube.com/watch?v=k4-TvL1_rYo
Two Steps From Hell - For the Win
https://www.youtube.com/watch?v=rl_ndy61ON4
Fired Earth Music - Seeker of the Prophecy
https://www.youtube.com/watch?v=Vo_IalLoW4U
*If you are caught excessively commenting, insulting, or derailing then your comments will be removed. If you do not like it you can watch this video:
http://www.youtube.com/watch?v=mn0Hq-sy3Wg&feature;=plcp
"Copyright Disclaimer Under Section 107 of the Copyright Act 1976, allowance is made for "fair use" for purposes such as criticism, comment, news reporting, teaching, scholarship, and research. Fair use is a use permitted by copyright statute that might otherwise be infringing. Non-profit, educational or personal use tips the balance in favor of fair use."
wn.com/Quantum Physics Debunks Materialism
To help support this ministry click here: http://www.patreon.com/inspiringphilosophy
Materialism has been dead for decades now and recent research only reconfirms this and goes even further, as this video will show. It ends with a brief introduction to the Cosmic Conscious Argument for God's existence.
Thanks to Johanan Raatz for helping make this video. Check out his channel here:
youtube.com/JohananRaatz
Translated into "Simplified Chinese" by Alice Zhou.
Sources:
Opening Quote from "Symmetries and Reflections: Scientific Essays" page 176
http://www.youtube.com/watch?v=DfPeprQ7oGc
The Quantum Enigma
Observation in Quantum Mechanics and the 'Collapse of the Wavefunction'
http://adsabs.harvard.edu/abs/1961ZPhy..161..454J
http://prola.aps.org/abstract/PR/v47/i10/p777_1
http://philoscience.unibe.ch/documents/TexteHS10/bell1964epr.pdf
http://www.nature.com/nature/journal/v446/n7138/full/446866a.html
https://www.youtube.com/watch?v=mvMx1baJwpA
http://link.springer.com/article/10.1023%2FA%3A1026096313729
http://arxiv.org/abs/0704.2529
http://physicsworld.com/cws/article/news/2007/apr/20/quantum-physics-says-goodbye-to-reality
https://www.youtube.com/watch?v=nttB3Wze3Y8
http://arxiv.org/abs/quant-ph/9903047
http://www.bottomlayer.com/bottom/kim-scully/kim-scully-web.htm
http://arxiv.org/abs/1106.4481
http://www.newscientist.com/article/dn20600-quantum-magic-trick-shows-reality-is-what-you-make-it.html
http://www.youtube.com/watch?v=LiNJRh2fxY8
http://arxiv.org/abs/1206.6578
http://www.nature.com/news/2007/070416/full/070416-9.html
http://arxiv.org/abs/1207.5294
http://www.pnas.org/content/early/2011/01/04/1005774108
http://meetings.aps.org/Meeting/MAR07/Event/57254
http://www.nature.com/nnano/journal/v7/n5/full/nnano.2012.34.html
http://www.livescience.com/19268-quantum-double-slit-experiment-largest-molecules.html
http://arxiv.org/abs/0909.1469
http://www.nature.com/news/2011/050411/full/news.2011.210.html
http://www.wired.com/wiredscience/2009/09/quantum-entanglement/
http://www.nature.com/news/2010/100317/full/news.2010.130.html
http://arxiv.org/pdf/0801.0337
The God Theory
http://henry.pha.jhu.edu/aspect.html
http://vimeo.com/26318064
Music Credits:
Two Steps From Hell -The Truth Unravels
https://www.youtube.com/watch?v=k4-TvL1_rYo
Two Steps From Hell - For the Win
https://www.youtube.com/watch?v=rl_ndy61ON4
Fired Earth Music - Seeker of the Prophecy
https://www.youtube.com/watch?v=Vo_IalLoW4U
*If you are caught excessively commenting, insulting, or derailing then your comments will be removed. If you do not like it you can watch this video:
http://www.youtube.com/watch?v=mn0Hq-sy3Wg&feature;=plcp
"Copyright Disclaimer Under Section 107 of the Copyright Act 1976, allowance is made for "fair use" for purposes such as criticism, comment, news reporting, teaching, scholarship, and research. Fair use is a use permitted by copyright statute that might otherwise be infringing. Non-profit, educational or personal use tips the balance in favor of fair use."
- published: 01 Nov 2013
- views: 345473
Albert Einstein - The Quantum Theory - Documentary 2015
- Order: Reorder
- Duration: 89:53
- Updated: 19 Sep 2014
- views: 726581
Albert Einstein 14 March 1879 – 18 April 1955) was a German-born theoretical physicist and philosopher of science. He developed the general theory of relativity...
Albert Einstein 14 March 1879 – 18 April 1955) was a German-born theoretical physicist and philosopher of science. He developed the general theory of relativity, one of the two pillars of modern physics (alongside quantum mechanics). He is best known in popular culture for his mass–energy equivalence formula E = mc2 (which has been dubbed "the world's most famous equation"). He received the 1921 Nobel Prize in Physics "for his services to theoretical physics, and especially for his discovery of the law of the photoelectric effect". The latter was pivotal in establishing quantum theory.
Near the beginning of his career, Einstein thought that Newtonian mechanics was no longer enough to reconcile the laws of classical mechanics with the laws of the electromagnetic field. This led to the development of his special theory of relativity. He realized, however, that the principle of relativity could also be extended to gravitational fields, and with his subsequent theory of gravitation in 1916, he published a paper on the general theory of relativity. He continued to deal with problems of statistical mechanics and quantum theory, which led to his explanations of particle theory and the motion of molecules. He also investigated the thermal properties of light which laid the foundation of the photon theory of light. In 1917, Einstein applied the general theory of relativity to model the large-scale structure of the universe.[7]
He was visiting the United States when Adolf Hitler came to power in 1933 and, being Jewish, did not go back to Germany, where he had been a professor at the Berlin Academy of Sciences. He settled in the U.S., becoming an American citizen in 1940.[8] On the eve of World War II, he endorsed a letter to President Franklin D. Roosevelt alerting him to the potential development of "extremely powerful bombs of a new type" and recommending that the U.S. begin similar research. This eventually led to what would become the Manhattan Project. Einstein supported defending the Allied forces, but largely denounced the idea of using the newly discovered nuclear fission as a weapon. Later, with the British philosopher Bertrand Russell, Einstein signed the Russell–Einstein Manifesto, which highlighted the danger of nuclear weapons. Einstein was affiliated with the Institute for Advanced Study in Princeton, New Jersey, until his death in 1955.
wn.com/Albert Einstein The Quantum Theory Documentary 2015
Albert Einstein 14 March 1879 – 18 April 1955) was a German-born theoretical physicist and philosopher of science. He developed the general theory of relativity, one of the two pillars of modern physics (alongside quantum mechanics). He is best known in popular culture for his mass–energy equivalence formula E = mc2 (which has been dubbed "the world's most famous equation"). He received the 1921 Nobel Prize in Physics "for his services to theoretical physics, and especially for his discovery of the law of the photoelectric effect". The latter was pivotal in establishing quantum theory.
Near the beginning of his career, Einstein thought that Newtonian mechanics was no longer enough to reconcile the laws of classical mechanics with the laws of the electromagnetic field. This led to the development of his special theory of relativity. He realized, however, that the principle of relativity could also be extended to gravitational fields, and with his subsequent theory of gravitation in 1916, he published a paper on the general theory of relativity. He continued to deal with problems of statistical mechanics and quantum theory, which led to his explanations of particle theory and the motion of molecules. He also investigated the thermal properties of light which laid the foundation of the photon theory of light. In 1917, Einstein applied the general theory of relativity to model the large-scale structure of the universe.[7]
He was visiting the United States when Adolf Hitler came to power in 1933 and, being Jewish, did not go back to Germany, where he had been a professor at the Berlin Academy of Sciences. He settled in the U.S., becoming an American citizen in 1940.[8] On the eve of World War II, he endorsed a letter to President Franklin D. Roosevelt alerting him to the potential development of "extremely powerful bombs of a new type" and recommending that the U.S. begin similar research. This eventually led to what would become the Manhattan Project. Einstein supported defending the Allied forces, but largely denounced the idea of using the newly discovered nuclear fission as a weapon. Later, with the British philosopher Bertrand Russell, Einstein signed the Russell–Einstein Manifesto, which highlighted the danger of nuclear weapons. Einstein was affiliated with the Institute for Advanced Study in Princeton, New Jersey, until his death in 1955.
- published: 19 Sep 2014
- views: 726581
Quantum Mechanics (an embarrassment) - Sixty Symbols
- Order: Reorder
- Duration: 14:07
- Updated: 22 Jan 2013
- views: 502767
Even the professional understanding of quantum mechanics is "embarrassing", says cosmologist Sean Carroll.
Read Sean's blog on this subject at http://bit.ly/V1S...
Even the professional understanding of quantum mechanics is "embarrassing", says cosmologist Sean Carroll.
Read Sean's blog on this subject at http://bit.ly/V1SUpV and the full paper at http://arxiv.org/abs/1301.1069
We filmed with Sean during his visit to the University of Nottingham and will have more videos with him coming soon.
Check out Sean's website (and his excellent books) at: http://preposterousuniverse.com/
Read his Higgs Boson book: http://amzn.to/Nvdn8P
Visit the SIxty Symbols website at http://www.sixtysymbols.com/
We're on Facebook at http://www.facebook.com/sixtysymbols
And Twitter at http://twitter.com/#!/periodicvideos
This project features scientists from The University of Nottingham
http://www.nottingham.ac.uk/physics/index.aspx
Sixty Symbols videos by Brady Haran
A run-down of Brady's channels:
http://periodicvideos.blogspot.co.uk/2012/06/here-are-my-channels.html
wn.com/Quantum Mechanics (An Embarrassment) Sixty Symbols
Even the professional understanding of quantum mechanics is "embarrassing", says cosmologist Sean Carroll.
Read Sean's blog on this subject at http://bit.ly/V1SUpV and the full paper at http://arxiv.org/abs/1301.1069
We filmed with Sean during his visit to the University of Nottingham and will have more videos with him coming soon.
Check out Sean's website (and his excellent books) at: http://preposterousuniverse.com/
Read his Higgs Boson book: http://amzn.to/Nvdn8P
Visit the SIxty Symbols website at http://www.sixtysymbols.com/
We're on Facebook at http://www.facebook.com/sixtysymbols
And Twitter at http://twitter.com/#!/periodicvideos
This project features scientists from The University of Nottingham
http://www.nottingham.ac.uk/physics/index.aspx
Sixty Symbols videos by Brady Haran
A run-down of Brady's channels:
http://periodicvideos.blogspot.co.uk/2012/06/here-are-my-channels.html
- published: 22 Jan 2013
- views: 502767
1. Introduction to Superposition
- Order: Reorder
- Duration: 76:07
- Updated: 18 Jun 2014
- views: 321875
MIT 8.04 Quantum Physics I, Spring 2013
View the complete course: http://ocw.mit.edu/8-04S13
Instructor: Allan Adams
In this lecture, Prof. Adams discusses a s...
MIT 8.04 Quantum Physics I, Spring 2013
View the complete course: http://ocw.mit.edu/8-04S13
Instructor: Allan Adams
In this lecture, Prof. Adams discusses a series of thought experiments involving "box apparatus" to illustrate the concepts of uncertainty and superposition, which are central to quantum mechanics. The first ten minutes are devoted to course information.
License: Creative Commons BY-NC-SA
More information at http://ocw.mit.edu/terms
More courses at http://ocw.mit.edu
wn.com/1. Introduction To Superposition
MIT 8.04 Quantum Physics I, Spring 2013
View the complete course: http://ocw.mit.edu/8-04S13
Instructor: Allan Adams
In this lecture, Prof. Adams discusses a series of thought experiments involving "box apparatus" to illustrate the concepts of uncertainty and superposition, which are central to quantum mechanics. The first ten minutes are devoted to course information.
License: Creative Commons BY-NC-SA
More information at http://ocw.mit.edu/terms
More courses at http://ocw.mit.edu
- published: 18 Jun 2014
- views: 321875
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Quantum Theory - Full Documentary HD
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published: 25 May 2014
Quantum Theory - Full Documentary HD
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Quantum Mechanics for Dummies
Hi Everyone, today we're sharing Quantum Mechanics made simple! This 20 minute explanation...
published: 14 May 2015
Quantum Mechanics for Dummies
Quantum Mechanics for Dummies
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Quantum Mechanics: Animation explaining quantum physics
Covers all topics, including wave particle duality, Schrodinger's cat, EPR / Bell inequali...
published: 23 Mar 2013
Quantum Mechanics: Animation explaining quantum physics
Quantum Mechanics: Animation explaining quantum physics
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THE AWAKENING – Quantum Mechanics of the Human Brain & Consciousness
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published: 01 May 2015
THE AWAKENING – Quantum Mechanics of the Human Brain & Consciousness
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Lecture 1 | Modern Physics: Quantum Mechanics (Stanford)
Lecture 1 of Leonard Susskind's Modern Physics course concentrating on Quantum Mechanics. ...
published: 10 Apr 2008
Lecture 1 | Modern Physics: Quantum Mechanics (Stanford)
Lecture 1 | Modern Physics: Quantum Mechanics (Stanford)
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The Origin of Quantum Mechanics (feat. Neil Turok)
Check out the Massey Lectures with Neil Turok: http://dft.ba/-massey
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published: 14 Oct 2012
The Origin of Quantum Mechanics (feat. Neil Turok)
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98:44
Measure for Measure: Quantum Physics and Reality
When no one is looking, a particle has near limitless potential: it can be nearly anywhere...
published: 20 Jun 2014
Measure for Measure: Quantum Physics and Reality
Measure for Measure: Quantum Physics and Reality
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74:25
Entanglement and Complexity: Gravity and Quantum Mechanics
Professor Leonard Susskind describes how gravity and quantum information theory have come ...
published: 07 Nov 2015
Entanglement and Complexity: Gravity and Quantum Mechanics
Entanglement and Complexity: Gravity and Quantum Mechanics
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Quantum Mechanics explained in 60 seconds by Brian Cox - BBC News
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published: 23 Sep 2014
Quantum Mechanics explained in 60 seconds by Brian Cox - BBC News
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25 Ways That Quantum Mechanics Changed Our View Of Reality
Quantum Mechanics is one of the breakthroughs in science that enabled scientists to explai...
published: 13 Jan 2015
25 Ways That Quantum Mechanics Changed Our View Of Reality
25 Ways That Quantum Mechanics Changed Our View Of Reality
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5:24
What can Schrödinger's cat teach us about quantum mechanics? - Josh Samani
View full lesson: http://ed.ted.com/lessons/what-can-schrodinger-s-cat-teach-us-about-quan...
published: 21 Aug 2014
What can Schrödinger's cat teach us about quantum mechanics? - Josh Samani
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Quantum Mechanics Explained or Quantum Theory For Dummies
This is one of the best lessons I have seen if someone wants to understand quantum physics...
published: 27 Feb 2013
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Quantum Theory Made Easy [1]
“Quantum Theory Made Easy,” a series in which the concepts of quantum physics are broken d...
published: 18 Jul 2015
Quantum Theory Made Easy [1]
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Brian Greene and Alan Alda Discuss Why Einstein Hated Quantum Mechanics
Albert Einstein was not a fan of quantum mechanics. He was annoyed by the uncertain, rando...
published: 10 Jul 2014
Brian Greene and Alan Alda Discuss Why Einstein Hated Quantum Mechanics
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Quantum Mechanics for Dummies...
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Lecture 1 | Modern Physics: Quantum Mechanics (Sta...
The Origin of Quantum Mechanics (feat. Neil Turok)...
Measure for Measure: Quantum Physics and Reality...
Entanglement and Complexity: Gravity and Quantum M...
Quantum Mechanics explained in 60 seconds by Brian...
25 Ways That Quantum Mechanics Changed Our View Of...
What can Schrödinger's cat teach us about quantum ...
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Some Think Clinton's 'Absolute' Promises Are Absolutely Wrong
Edit WorldNews.com 04 Mar 2016
Article by WN.com Correspondent Dallas Darling. As usual, the American press failed to ask another leader to account for their statement. This time, according to political activists, it was Hillary Clinton who appeared on MSNBC’s Morning Joe program ... Absolutely!” . Clinton also added she was on the public record as saying, “I told them what I’m going to do. I said I’m going to go after big banks that pose a systematic risk.” ... Always....
photo: US Navy / Lt.j.g. Jonathan Peterson
China Accuses the U.S. of ‘Militarizing’ the South China Sea
Edit Time Magazine 04 Mar 2016
China has stationed surface-to-air missiles on a contested island in the South China Sea and is expanding its footprint in the waterway through energetic island-building. New runways allow Chinese fighter jets to land on disputed turf, while Chinese fishermen are encouraged by the state to ply waters claimed by five other governments ... If we’re talking about militarization, what’s this? Isn’t it militarization?”....
photo: AP / David Goldman
Romney Offers Blistering Attack On Trump, Tells Republicans Not To Be Fooled By Candidate
Edit WorldNews.com 03 Mar 2016
Former Massachusetts governor and 2012 Republican presidential nominee Mitt Romney took center stage Thursday morning and delivered a scalding denunciation of current GOP frontrunner Donald Trump, Breitbart reported ... Romney mocked Trump’s plan for a 35 percent tariff on goods from China, saying the plan would induce a trade war. In addition, he said, Trump’s economic policies would hurt Americans, the report said ... Ted Cruz and Ohio Gov....
photo: NATO / NATO
'Immunity granted to Clinton staffer Bryan Pagliano who set up server'
Edit Zeenews 03 Mar 2016
Hillary Clinton's former staffer who helped set up the controversial private email server she used while secretary of state has been granted immunity in a criminal investigation into the affair, a media report has said ... ....
photo: AP / Charles Dharapak
Deep State And The Reality Behind Super Tuesday And November Election
Edit WorldNews.com 03 Mar 2016
Article by WN.com correspondent Dallas Darling. “The eyes are useless when the mind is blind.” – Anonymous . One thing is for certain about this year’s Super Tuesday and presidential election. At least Americans are being entertained ... To be certain, who couldn’t resist laughing at Sen. Marc Rubio imitating billionaire Donald Trump worrying that his pants were “wet” last Thursday night at the CNN GOP Debate ... Presidents George W ... Exposed ... 79....
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The beginning of the end for encryption schemes? (MIT - Massachusetts Institute of Technology)
Edit Public Technologies 04 Mar 2016
It's thought that a single quantum computer may easily crack this problem, by using hundreds of atoms, essentially in parallel, to quickly factor huge numbers ... Seeing through the quantum forest ... 'The difficulty is to implement [the algorithm] in a system that's sufficiently isolated that it can stay quantum mechanical for long enough that you can actually have a chance to do the whole algorithm.'....
LIGO Panel Peers into New Window on the Universe (California Institute of Technology)
Edit Public Technologies 04 Mar 2016
(Source. California Institute of Technology) ... This discovery, announced worldwide on February 11, 2016, has opened a new window on the universe ... According to panelist Kip Thorne, the Richard P ... Adhikari discussed the steps to limit Earth's own gravitational noise, the material science behind the superreflective mirrors used in the detectors, and the 'squeezed-light system' used to minimize quantum-mechanical noise ... Original Document....
Heisenberg, the Tao and the Unbreakable One
Edit Huffington Post 03 Mar 2016
One of the most fascinating aspects of Quantum Mechanics is known as Heisenberg's Uncertainty Principle ... The more we know about the one the less we seem to know about the other ... One of the fathers of Quantum Physics, Neils Bohr once made the surprising observation that "it is a mistake to think that a particle ever existed prior to our measurement...isolated material particles are abstractions." ... C.S ... As he wrote. ... ....
Bristol leading on quantum innovation (University of Bristol)
Edit Public Technologies 02 Mar 2016
The Quantum Technology Enterprise Centre (QTEC), will train a new generation of postdoctoral quantum engineers ... EPSRC Quantum Technology Capital Call ... The goal in the Centre for Quantum Photonics (CQP) is to explore fundamental aspects of quantum mechanics, as and to develop future photonic quantum technologies by generating, manipulating and measuring single photons as well as the quantum systems that emit these photons....
Building a Better Mousetrap, From the Atoms Up (University of Connecticut)
Edit Public Technologies 02 Mar 2016
First, they would analyze known polymers, using laborious but accurate quantum mechanics-based calculations to figure out which arrangements of atoms confer which properties, and quantify those atomic-level relationships via a string of numbers that fingerprint each polymer ... They started from basic quantum mechanics, and calculated the three-dimensional atomic and electronic structures of each of those 283 four-block polymers....
Bath receives investment in doctoral training and quantum technologies (University of Bath)
Edit Public Technologies 02 Mar 2016
The University of Bath will receive more than £4.5 million funding towards supporting doctoral training and quantum technologies research ... Quantum Technology Hub ... The NQIT Hub, led by the University of Oxford and involving 29 leading quantum centres and major companies, will explore the properties of quantum mechanics and how they can be harnessed for use in technology ... http.//www.bath.ac.uk/news/2016/03/02/quantum-technologies/....
Cryptsoft and Whitewood deliver high-performance quantum security to enterprise key management market
Edit PR Newswire 02 Mar 2016
... EngineTM Quantum-powered Random Number Generator (QRNG). "Using a quantum-based source of high quality entropy, we can ensure that we can generate the quality keys required to strengthen the overall crypto system ... Whitewood's products exploit quantum mechanics to meet demand for high-quality entropy used for random data and key generation at scale....
Solving a nanotechnology riddle – what makes gold atoms stick together (UTS - University of Technology, Sydney)
Edit Public Technologies 02 Mar 2016
(Source. UTS - University of Technology, Sydney). Gold is special, coveted as an investment, prized as jewellery and with a decorative history that dates back thousands of years ... 'However, our research demonstrates that it is a force known as the van derWalls force - a type of attraction between molecules of quantum mechanical origin - that is responsible for binding sulphur to gold metal and nanoparticles ... Original Document ... (noodl....
The Question of J. Robert Oppenheimer in the 21st Century (SDHC - South Dakota Humanities Council)
Edit Public Technologies 02 Mar 2016
the evolution of communism from its 1930's, quasi-liberal form into a rigid, authoritarian ideology; the evolution of quantum mechanics; and the evolution of our country's thinking about the strategic uses of atomic weaponry....
10 Most Compelling Pieces Of Evidence That Prove Alternate Realities Are Real
Edit What Culture 01 Mar 2016
Warner Bros. Pictures/Paramount Pictures. In one universe you are reading an article on WhatCulture ... Brian Cox. Quantum mechanics, different planes of existence, and a hammer that nobody can identify a time for are all compelling pieces of evidence that prove alternate realities are real ... ....
Three "twisted" photons in three dimensions (Universität Wien)
Edit Public Technologies 01 Mar 2016
'The entangled photons in our experiment can be illustrated by not two, but three such ice dancers, dancing a perfectly synchronized quantum mechanical ballet,' explains Mehul Malik, the first author of the paper ... The scientists created their three-photon entangled state by using yet another quantum mechanical trick ... computing to quantum encryption....
Members of Aalto community awarded grants for more than half a million euros by Finnish ...
Edit Public Technologies 01 Mar 2016
(Source. Aalto University) ... They include Kaisu Savola, who studies Finnish design education in her dissertation; Jorge Santos, who prepares a dissertation on quantum mechanical phenomena; Antti Keskilä, who develops next generation small satellite technology; and Juha Virrankoski, who studies productivity differences in companies and centralisation of labour markets ... (pdf)....
Cracking the code of the Universe (University of the Witwatersrand)
Edit Public Technologies 29 Feb 2016
String Theory is a highly complex theory in physics that attempts to find a solution to the question of why quantum mechanics and Einstein's theory of general relativity are not compatible ... and time (or spacetime), quantum mechanics provides a description of how fundamental particles build up and create the substances with which we are familiar....
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