Presentation is loading. Please wait.

Presentation is loading. Please wait.

Quantum II (PHYS 4410) Prof. Chuck Rogers: 303-492-4476 Office hours: MF 4-4:45P after class, start.

Published byBenedict Daniels Modified over 9 years ago

Similar presentations

Presentation on theme: "Quantum II (PHYS 4410) Prof. Chuck Rogers: 303-492-4476 Office hours: MF 4-4:45P after class, start."— Presentation transcript:

1 Quantum II (PHYS 4410) Prof. Chuck Rogers: Charles.Rogers@colorado.eduCharles.Rogers@colorado.edu 303-492-4476 Office hours: MF 4-4:45P after class, start here and then migrate to Duane F-631 Homework sessions: Thursdays TBA (need a vote) Website: http://www.colorado.edu/physics/phys4410http://www.colorado.edu/physics/phys4410 Welcome! to the second semester of quantum mechanics and atomic physics.

2 Do you have an iClicker? (Set your frequency to CB and vote.) A) Yes B) No 2

3 Have you looked at the web site for this class, before now? A) Yes B) No 3

4 (ICLICKER frequency is DB) Have you reviewed the course material from last semester? A)Yes – Griffiths new B)Yes – Griffiths used C)Yes – Griffiths borrowed D)Not really – but I will soon! E)Nope 3

5

6 Which of the following is most likely a correct expansion of some general |  > in the basis set given by a hermitian operator, Q? A) 5 B) C)Neither in general, because you can’t be sure the Q basis is complete. D)Something else or confused.

7 Given an expansion of some general |  > in the basis set given by a hermitian operator, Q: A) 5 B) C) Both A and B. what is the probability the system is actually in state | q 3 >? D) Ummmm…..

8 Given an expansion of some general |  > in the basis set given by a hermitian operator, Q: A) 5 B) C) Both A and B. what is the probability of measuring q 3 ? D) Neither A nor B

9 A system was in some general |  >: A) as required by reproducibility of measurements 5 B) by the postulates of quantum mechanics C) Impossible to say by Uncertainty Principle A measurement on the system of the observable, Q, gave the result q 3. After the measurement, the system is in state:

10

11 In quantum mechanics, do we expect that this equation is derived? A) Yes B) No 4 Probably not… though Feynman became really famous by deriving it via a minimum action hypothesis: Path Integrals. The value is in agreement with experiment.

12 As plain good sense, we imagine that expectation value of a constant, say, A) zero B) 1 C)Depends upon the wave function D)No idea… E)No, really, no idea. 4 should be:

Download ppt "Quantum II (PHYS 4410) Prof. Chuck Rogers: 303-492-4476 Office hours: MF 4-4:45P after class, start."

Similar presentations

Quantum Harmonic Oscillator

Quantum Harmonic Oscillator
Physics 451 Quantum mechanics I Fall 2012 Karine Chesnel.

Physics 451 Quantum mechanics I Fall 2012 Karine Chesnel.
Postulates of Quantum Mechanics. The Fundamental Rules of Our Game Any measurement we can make with an experiment corresponds to a mathematical “operator”

Postulates of Quantum Mechanics. The Fundamental Rules of Our Game Any measurement we can make with an experiment corresponds to a mathematical “operator”
QUANTUM MECHANICS Probability & Uncertainty 1.Probability 2.Uncertainty 3.Double-slit photons.

QUANTUM MECHANICS Probability & Uncertainty 1.Probability 2.Uncertainty 3.Double-slit photons.
Quantum One: Lecture 13 1. 2 More about Linear Operators 3.

Quantum One: Lecture More about Linear Operators 3.
Quantum One: Lecture 3. Implications of Schrödinger's Wave Mechanics for Conservative Systems.

Quantum One: Lecture 3. Implications of Schrödinger's Wave Mechanics for Conservative Systems.
Wavefunction Quantum mechanics acknowledges the wave-particle duality of matter by supposing that, rather than traveling along a definite path, a particle.

Wavefunction Quantum mechanics acknowledges the wave-particle duality of matter by supposing that, rather than traveling along a definite path, a particle.
PHYS 30101 Quantum Mechanics “the dreams stuff is made of” PHYS 30101 Quantum Mechanics “the dreams stuff is made of” Dr Jon Billowes Nuclear Physics Group.

PHYS Quantum Mechanics “the dreams stuff is made of” PHYS Quantum Mechanics “the dreams stuff is made of” Dr Jon Billowes Nuclear Physics Group.
EECS 20 Chapter 10 Part 11 Fourier Transform In the last several chapters we Viewed periodic functions in terms of frequency components (Fourier series)

EECS 20 Chapter 10 Part 11 Fourier Transform In the last several chapters we Viewed periodic functions in terms of frequency components (Fourier series)
Physics 452 Quantum mechanics II Winter 2011 Instructor: Karine Chesnel.

Physics 452 Quantum mechanics II Winter 2011 Instructor: Karine Chesnel.
Physics 452 Quantum mechanics II Winter 2012 Karine Chesnel.

Physics 452 Quantum mechanics II Winter 2012 Karine Chesnel.
4. The Postulates of Quantum Mechanics 4A. Revisiting Representations

4. The Postulates of Quantum Mechanics 4A. Revisiting Representations
1234567891011121314151617181920 2122232425262728293031323334353637383940 41424344454647484950 1.2. 3.4.

Physics 452 Quantum mechanics II Winter 2012 Karine Chesnel.

Physics 452 Quantum mechanics II Winter 2012 Karine Chesnel.
Quantum One: Lecture 2. Postulates of Schrödinger's Wave Mechanics.

Quantum One: Lecture 2. Postulates of Schrödinger's Wave Mechanics.
General Physics I: Day 3 Constant Acceleration and Freefall Download the equation sheet (under Handouts). You’ll also get a fresh one.

General Physics I: Day 3 Constant Acceleration and Freefall Download the equation sheet (under Handouts). You’ll also get a fresh one.
7-Sep-15 Physics 1 (Garcia) SJSU Conceptual Physics (Physics 1) Prof. Alejandro Garcia Spring 2007.

7-Sep-15 Physics 1 (Garcia) SJSU Conceptual Physics (Physics 1) Prof. Alejandro Garcia Spring 2007.
Chapter 4 Arrangement of Electrons in Atoms

Chapter 4 Arrangement of Electrons in Atoms
Physics 451 Quantum mechanics I Fall 2012 Sep 10, 2012 Karine Chesnel.

Physics 451 Quantum mechanics I Fall 2012 Sep 10, 2012 Karine Chesnel.
Particles (matter) behave as waves and the Schrödinger Equation 1. Comments on quiz 9.11 and 9.23. 2. Topics in particles behave as waves:  The (most.

Particles (matter) behave as waves and the Schrödinger Equation 1. Comments on quiz 9.11 and Topics in particles behave as waves:  The (most.

Similar presentations

Ads by Google