Questions for learning Quantum Mechanics of FYSA21
... you measure the observable represented by the operator  with an eigenvalue a and the corresponding normalised eigenfunction Ψa (x), what is the probability of obtaining the value a? (1p) 10. If you have just measured the obeservable  of a Quantum Mechanical system and obtained the value a and th ...
... you measure the observable represented by the operator  with an eigenvalue a and the corresponding normalised eigenfunction Ψa (x), what is the probability of obtaining the value a? (1p) 10. If you have just measured the obeservable  of a Quantum Mechanical system and obtained the value a and th ...
Quantum Mechanics: Introduction
... Spread over the space, amplitude gives 2. Electromagnetic field (wave) energy/intensity, frequency is nothing Maxwell’s equation but time periodicity of oscillator ...
... Spread over the space, amplitude gives 2. Electromagnetic field (wave) energy/intensity, frequency is nothing Maxwell’s equation but time periodicity of oscillator ...
Contemporary Quantum Optics
... A and B measure the spin of particles 1 and 2 along a given Time axis. B A ...
... A and B measure the spin of particles 1 and 2 along a given Time axis. B A ...
Assignment 2
... You are to take a path along the grid beginning at the point (0,0) and ending at the point (6,4), but you are only allowed to move upwards or to the right. One such path is highlighted in the figure. ...
... You are to take a path along the grid beginning at the point (0,0) and ending at the point (6,4), but you are only allowed to move upwards or to the right. One such path is highlighted in the figure. ...
Lecture 2
... Formalism of quantum mechanics In quantum mechanics, the state of the system is described by its wave function and the observables are represented by operators. Wave functions satisfy requirements for vectors and operators act on the wave functions as linear transformations. Therefore, it is natura ...
... Formalism of quantum mechanics In quantum mechanics, the state of the system is described by its wave function and the observables are represented by operators. Wave functions satisfy requirements for vectors and operators act on the wave functions as linear transformations. Therefore, it is natura ...
Quantum Mechanics Practice Problems Solutions
... Angular momentum, L, is given by the cross product r x p. So the angular momentum in the x axis, Lx, is given by ypz – zpy, what is the operator ? ...
... Angular momentum, L, is given by the cross product r x p. So the angular momentum in the x axis, Lx, is given by ypz – zpy, what is the operator ? ...
1_Quantum theory_ introduction and principles
... 1. Quantum theory: introduction and principles 1.1 Wave-particle duality 1.2 The Schrödinger equation 1.3 The Born interpretation of the wavefunction 1.4 Operators and theorems of the quantum theory 1.5 The Uncertainty Principle ...
... 1. Quantum theory: introduction and principles 1.1 Wave-particle duality 1.2 The Schrödinger equation 1.3 The Born interpretation of the wavefunction 1.4 Operators and theorems of the quantum theory 1.5 The Uncertainty Principle ...
