MIT Open Course Quantum Physics - Search Videos

Lecture 1: Introduction to Superposition

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Lecture 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 ...

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Lecture 5: Operators and the Schrödinger Equation

Lecture 5: Operators and the Schrödinger Equation

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QUANTUM MECHANICS · Probability CurrentSeveral quantum packets move through the same 2D field.Each packet is a wavefunction ψₐ(x,y,t), evolving byi∂ψₐ/∂t = [-½∇² + V(x,y,t) + gρ(x,y,t)]ψₐ.The total probability density isρ = Σₐ |ψₐ|².The flowing threads show the total probability current:J = Σₐ Im(ψₐ*∇ψₐ).The dotted particles ride the velocity fieldv = J / ρ.So the dots are following the actual quantum flow.As the packets overlap, scatter, and reshape one another, the current stretches into lumin

QUANTUM MECHANICS · Probability CurrentSeveral quantum packets move through the same 2D field.Each packet is a wavefunction ψₐ(x,y,t), evolving byi∂ψₐ/∂t = [-½∇² + V(x,y,t) + gρ(x,y,t)]ψₐ.The total probability density isρ = Σₐ |ψₐ|².The flowing threads show the total probability current:J = Σₐ Im(ψₐ*∇ψₐ).The dotted particles ride the velocity fieldv = J / ρ.So the dots are following the actual quantum flow.As the packets overlap, scatter, and reshape one another, the current stretches into lumin

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Jump to key moments of MIT Open Course Quantum Physics

From 02:47Course Goals and Intuition

Lecture 1: Introduction to Superposition

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From 03:04Hermitian Operators and Hermitian Operators

The simplest quantum system

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From 00:52The Unique Spirit of the MIT Course

Atomic and Optical Physics: Quantum States and Dynamics of Photons | MITx on edX

From 02:31Quantum Mechanics and Observables

Lecture 6: Time Evolution and the Schrödinger Equation

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From 11:10Unifying Special Relativity and Quantum Mechanics

Lecture 3: Why Quantum Field Theory

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From 02:09Wave Functions in Quantum Mechanics

Lecture 4: Expectations, Momentum, and Uncertainty

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From 02:07Harmonic Oscillators in Quantum Systems

12. Quantum Dynamics

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From 00:27Course Structure and Expectations

Quantum Mechanics: Quantum physics in 1D Potentials | MITx on edX

From 02:23Quantum Computing as a Scientific Curiosity

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From 00:24Introduction to Quantum Physics

Lecture - 21 Quantum Physics

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Lecture 5: Operators and the Schrödinger Equation

Lecture 5: Operators and the Schrödinger Equation

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Lecture 11: Dispersion of the Gaussian and the Finite Well

Lecture 11: Dispersion of the Gaussian and the Finite Well

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Lecture 6: Time Evolution and the Schrödinger Equation

Lecture 6: Time Evolution and the Schrödinger Equation

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Lecture 3: Why Quantum Field Theory

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Quantum mechanics as a framework. Defining linearity

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Lecture 4: Expectations, Momentum, and Uncertainty

Lecture 4: Expectations, Momentum, and Uncertainty

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L1.1 General problem. Non-degenerate perturbation theory

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Lecture 22: Metals, Insulators, and Semiconductors

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12. Quantum Dynamics

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Lecture 8: Quantum Harmonic Oscillator

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Lecture 3: The Wave Function

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Linearity and nonlinear theories. Schrödinger's equation

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Lecture 12: The Dirac Well and Scattering off the Finite Step

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Lecture 20: Periodic Lattices Part 1

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Lecture 2: Experimental Facts of Life

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Lecture 24: Entanglement: QComputing, EPR, and Bell's Theorem

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Lecture 19: Identical Particles

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16. Quantum Dynamics (continued) and Two State Systems

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1. Wave Mechanics

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Lecture 13: More on Scattering

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Lecture 1: Classical Field Theories and Principle of Locality

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Lecture 14: Resonance and the S-Matrix

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3. Wave Mechanics (continued) and Stern-Gerlach Experiment

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20. Quantum Statistical Mechanics Part 1

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2. Wave Mechanics (continued)

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5. Quantum Mechanics: Free Particle and Particle in 1D Box

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14. Quantum Dynamics (continued)

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The simplest quantum system

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