Quantentheorie: EPR-Paradoxon Scene Info click for Module Menu Start Branching Point Module: Quantentheorie: EPR-Paradoxon Sequence: 0.0. Start_Quantentheorie_EPR Branching Point: Paradoxes of Quantum Mechanics Sequence: 3.0. BranchPoint_EPR Branching Point: The Einstein-Podolsky-Rosen Experiment (EPR) Sequence: 3.1. Grundlagen Experiment Slide: The Layout of the Experiment Slide: The Execution of the Experiment Slide: Slide: Slide: Slide: Einstein's Dilemma Sequence: 3.2. Einsteins Argument Slide: Quantum Mechanical Measurements Slide: Quantum Mechanical States Slide: Slide: Slide: Slide: Slide: Slide: Slide: Sequence: 3.3. BranchPoint_Physikalische_Begriffe_EPR Branching Point: Physical Terms for the Einstein-Podolsky-Rosen Experiment Sequence: 3.3.1. Glossar_Messungen Slide: Measurement Slide: Measurements Influence Measurements Sequence: 3.3.2. Glossar_Polarisation Slide: What is Polarisation? Slide: Sequence: 3.3.3. Glossar_Verschraenkung Slide: What is Entanglement? Sequence: 2.0. Story_der_Quantenmechanik Slide: Slide: Slide: Slide: Slide: Slide: Slide: Slide: Slide: The Seeds of Discord from My Youth... Slide: Slide: The Einstein-Bohr Dialog Branching Point: The Einstein-Podolsky-Rosen Experiment (EPR) Sequence: 3.2. Einsteins Argument Slide: Quantum Mechanical Measurements Slide: Quantum Mechanical States Slide: Slide: Slide: Slide: Slide: Slide: Slide: Sequence: 3.1. Grundlagen Experiment Slide: The Layout of the Experiment Slide: The Execution of the Experiment Slide: Slide: Slide: Slide: Einstein's Dilemma Sequence: 3.3. BranchPoint_Physikalische_Begriffe_EPR Branching Point: Physical Terms for the Einstein-Podolsky-Rosen Experiment Sequence: 3.3.1. Glossar_Messungen Slide: Measurement Slide: Measurements Influence Measurements Sequence: 3.3.2. Glossar_Polarisation Slide: What is Polarisation? Slide: Sequence: 3.3.3. Glossar_Verschraenkung Slide: What is Entanglement? Slide: Slide: Sequence: 4.0. Biographien Branching Point: Biographies Sequence: 4.1. Biographie 24341: Niels Bohr Slide: Niels Bohr (1885–1962) Sequence: 4.2. Biographie 24341: Max Born Slide: Max Born (1882–1970) Sequence: 4.3. Biographie 24341: Erwin Schroedinger Slide: Erwin Schrödinger (1887–1961) Sequence: 4.4. Biographie 24341: Werner Heisenberg Slide: Werner Heisenberg (1901–1976) Sequence: 1.0. Objektfolge_Quantenmechanik Slide: Paradoxes of quantum mechanics Slide: Einstein as a Cobbler Slide: Sticklers for Principle and Virtuosos Slide: Quantum Mechanics is Not the Real Mc Coy Slide: Delight over Wave Mechanics Slide: The Uncertainty Principle Slide: Bohr Interprets Quantum Mechanics Slide: Einstein on the 200th Anniversary of Newton's Death Slide: Einstein-Podolsky-Rosen Experiment Slide: The Core of the Einstein-Podolsky-Rosen Experiment Slide: Albert Einstein's Reply to Niels Bohr Back Forward In our example, both entangled systems are two pairs of cups (instead of two photons). They can be any distance apart from each other. If both blue cups are lifted up, both of the dice always have the same value. [ Sitemap ] [ info ] This website was created with Virtual Spaces.