1 |
L1.1 Quantum mechanics as a framework. Defining linearity. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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2 |
L1.2 Linearity and nonlinear theories. Schrödinger’s equation. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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3 |
L1.3 Necessity of complex numbers. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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4 |
L1.4 Photons and the loss of determinism. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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5 |
L1.5 The nature of superposition. Mach-Zehnder interferometer. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
|
6 |
L2.1 More on superposition. General state of a photon and spin states. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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7 |
L2.2 Entanglement. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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8 |
L2.3 Mach-Zehnder interferometers and beam splitters. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
|
9 |
L2.4 Interferometer and interference. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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10 |
L2.5 Elitzur-Vaidman bombs. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
|
11 |
L3.1 The photoelectric effect. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
|
12 |
L3.2 Units of h and Compton wavelength of particles. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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13 |
L3.3 Compton Scattering. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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14 |
L3.4 de Broglie’s proposal. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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15 |
L4.1 de Broglie wavelength in different frames. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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16 |
L4.2 Galilean transformation of ordinary waves. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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17 |
L4.3 The frequency of a matter wave. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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18 |
L4.4 Group velocity and stationary phase approximation. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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19 |
L4.5 Motion of a wave-packet. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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20 |
L4.6 The wave for a free particle. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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21 |
L5.1 Momentum operator, energy operator, and a differential equation. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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22 |
L5.2 Free Schrödinger equation. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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23 |
L5.3 The general Schrödinger equation. x, p commutator. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
|
24 |
L5.4 Commutators, matrices, and 3-dimensional Schrödinger equation. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
|
25 |
L5.5 Interpretation of the wavefunction. (M-I-T)
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Quantum Physics I (M-I-T)
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MIT
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Prof. Dr. Barton Zwiebach
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Basic and Health Sciences
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