Interdimensional Quantum Physics & Time Travel: Part 1: Sacred Geometry
An introduction to the Platonic Solids and Sacred Geometry.
Stuart Hameroff on quantum physics – The Consciousness Chronicles Vol. 1
The Consciousness Chronicles is a new DVD series that explores the phenomenon of consciousness from many different angles. Each edition features exclusive in-depth interviews with some of the world’s leading pioneers in consciousness research. In this preview, quantum consciousness theorist Stuart Hameroff describes the profound differences between the classical and quantum worlds. To obtain your copy of The Consciousness Chronicles, go to www.consciousnesschronicles.com Constructive comments are welcome – Moderator.
Solvay Physics Conference 1927
www.FreeScienceLectures.com The most known people who participated in the conference were Ervin Schrodinger, Niels Bohr, Werner Heisenberg, Auguste Piccard, Paul Dirac, Max Born, Wolfgang Pauli, Louis de Broglie, Marie Curie, Hendrik Lorentz, Albert Einstein and others. The film opens with quick shots of Erwin Schrodinger and Niels Bohr. Auguste Piccard of the University of Brussels follows and then the camera re-focuses on Schrodinger and Bohr. Schrodinger who developed wave mechanics never agreed with Bohr on quantum mechanics. Solvay gave Heisenberg an opportunity to discuss his new uncertainty principle theory. Max Born’s statistical interpretation of the wave function ended determinism in atomic world. These men – Bohr, Heisenberg, Kramers, Dirac and Born together with Born represent the founding fathers of quantum mechanics. Louis de Broglie wrote his dissertation on the wave nature of matter which Schrodinger used as basis for wave mechanics. Albert Einstein whose famous response to Born’s statistical interpretation of wave function was “God does not play dice.” Twenty-nine physicists, the main quantum theorists of the day, came together to discuss the topic “Electrons and Photons”. Seventeen of the 29 attendees were or became Nobel Prize winners. Following is a “home movie” shot by Irving Langmuir, (the 1932 Nobel Prize winner in chemistry). It captures 2 minutes of an intermission in the proceedings. Twenty-one of the 29 attendees are on the film. — It’s Never …
Quantum Physics | Einstein and Neils Bohr
The BohrEinstein debates is a popular name given to a series of public disputes between Albert Einstein and Niels Bohr about quantum physics. These two men, along with Max Planck were the founders of the original quantum theory. Their “debates” are remembered because of their importance to the philosophy of science. Einstein sought a physics that would tell him what was happening in the real world “behind” the equations. Bohr was interested in the equations themselves and did not worry about an underlying reality.
Physics 10 – Lecture 15: Invisible Light I
Physics 10: Physics for Future Presidents. Spring 2006. Professor Richard A. Muller. The most interesting and important topics in physics, stressing conceptual understanding rather than math, with applications to current events. Topics covered may vary and may include energy and conservation, radioactivity, nuclear physics, the Theory of Relativity, lasers, explosions, earthquakes, superconductors, and quantum physics. [courses] [physics10] [spring2006] Credits: lecturer:Professor Richard A. Muller, producers:Educational Technology Services
Physics 10 – Lecture 14: Light II
Physics 10: Physics for Future Presidents. Spring 2006. Professor Richard A. Muller. The most interesting and important topics in physics, stressing conceptual understanding rather than math, with applications to current events. Topics covered may vary and may include energy and conservation, radioactivity, nuclear physics, the Theory of Relativity, lasers, explosions, earthquakes, superconductors, and quantum physics. [courses] [physics10] [spring2006] Credits: lecturer:Professor Richard A. Muller, producers:Educational Technology Services
Physics 10 – Lecture 16: Invisible Light II
Physics 10: Physics for Future Presidents. Spring 2006. Professor Richard A. Muller. The most interesting and important topics in physics, stressing conceptual understanding rather than math, with applications to current events. Topics covered may vary and may include energy and conservation, radioactivity, nuclear physics, the Theory of Relativity, lasers, explosions, earthquakes, superconductors, and quantum physics. [courses] [physics10] [spring2006] Credits: lecturer:Professor Richard A. Muller, producers:Educational Technology Services
Physics 10 – Lecture 06: Radioactivity II
Physics 10: Physics for Future Presidents. Spring 2006. Professor Richard A. Muller. The most interesting and important topics in physics, stressing conceptual understanding rather than math, with applications to current events. Topics covered may vary and may include energy and conservation, radioactivity, nuclear physics, the Theory of Relativity, lasers, explosions, earthquakes, superconductors, and quantum physics. [courses] [physics10] [spring2006] Credits: lecturer:Professor Richard A. Muller, producers:Educational Technology Services
Physics 10 – Lecture 25: Universe II
Physics 10: Physics for Future Presidents. Spring 2006. Professor Richard A. Muller. The most interesting and important topics in physics, stressing conceptual understanding rather than math, with applications to current events. Topics covered may vary and may include energy and conservation, radioactivity, nuclear physics, the Theory of Relativity, lasers, explosions, earthquakes, superconductors, and quantum physics. [courses] [physics10] [spring2006] Credits: lecturer:Professor Richard A. Muller, producers:Educational Technology Services
Physics 10 – Lecture 12: Waves II
Physics 10: Physics for Future Presidents. Spring 2006. Professor Richard A. Muller. The most interesting and important topics in physics, stressing conceptual understanding rather than math, with applications to current events. Topics covered may vary and may include energy and conservation, radioactivity, nuclear physics, the Theory of Relativity, lasers, explosions, earthquakes, superconductors, and quantum physics. [courses] [physics10] [spring2006] Credits: lecturer:Professor Richard A. Muller, producers:Educational Technology Services