Monday, February 8, 2010
Monday, February 8, 2010

... depends on temperature. • Ability to radiate related to ability to absorb—thermal equilibrium • Black body is ideal object that absorbs all radiation independent of frequency (radiation enters small whole bounces around until absorbed) ...
presentation source
presentation source

... Description of ordinary quantum mechanics requires the idea of ‘multiple generative levels’  General idea: – ‘Multiple generative levels’ are a sequence ABC  .. in which A ‘generates’ or ‘produces’ new forms of B using the present form of B as a precondition. – Then B generates C in the same way ...
Document
Document

... Quantum Hall edge states with a Bose gas Ultracold atomic systems can be used to model condensed-matter physics, providing precise control of system variables often not achievable in real materials. This involves inducing charge-neutral particles to behave as if they were charged particles in a magn ...
Prezentacja programu PowerPoint
Prezentacja programu PowerPoint

... Lecture V Hydrogen Atom ...
The Postulates of Quantum Mechanics Postulate 1 Postulate 2 H
The Postulates of Quantum Mechanics Postulate 1 Postulate 2 H

... The other conditions on the wavefunction that arise from the probabilistic interpretation are that it must be single-valued, continuous and nite. We normally write wavefunctions with a normalisation constant included. ...
Photoelectric Effect
Photoelectric Effect

... In photoelectric emission, light strikes a material, causing electrons to get emitted. The classical wave model predicted that if the intensity of incident light were increased, the amplitude and thus the energy of the wave would increase. This would then cause more energetic photoelectrons to be em ...
What is the meaning of the wave function?
What is the meaning of the wave function?

... corresponding eigenvalue being one, the system really “had” this value before it was measured. ...
What is the meaning of the wave function?
What is the meaning of the wave function?

... corresponding eigenvalue being one, the system really “had” this value before it was measured. ...
Pt-Symmetric Scarf-II Potential :an Update
Pt-Symmetric Scarf-II Potential :an Update

8.04 Final Review Schr¨ ary conditions.
8.04 Final Review Schr¨ ary conditions.

Class 12 Optics
Class 12 Optics

Localization, interaction and the modern interpretation(s) of quantum mechanics
Localization, interaction and the modern interpretation(s) of quantum mechanics

... multifractality arise without internal contradictions as the Bohm trajectories are not allowed to cross each other. The comparison of the trajectories to the semi-classical characteristics such as scar states, etc., should also be most interesting, particularly their variation with magnetic flux. In ...
Name
Name

... 4. Circle the letter of the term that completes the sentence correctly. A quantum of energy is the amount of energy required to a. place an electron in an energy level. b. maintain an electron in its present energy level. c. move an electron from its present energy level to a higher one. 5. In gener ...
1 - Cardinal Scholar Home
1 - Cardinal Scholar Home

Chapter 6. Electronic Structure of Atoms
Chapter 6. Electronic Structure of Atoms

... Heated solids emit radiation (blackbody radiation) •The wavelength distribution depends on the temperature (i.e., “red hot” objects are cooler than “white hot” objects). ...
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down

3.4 Quantum Numbers
3.4 Quantum Numbers

... The Magnetic Quantum Number (ml) • Gives the exact orbital • Describes the orientation of an atomic orbital in space (how it lines up on the xyz plane) • ml can have integer values from –l to +l including 0 • The Zeemen effect showed that if a gas discharge tube was placed near a strong magnet some ...
EM Waves
EM Waves

... •Some charge accumulates on each rod •This creates an electric field •The charging involves a current •This creates a magnetic field •It constantly reverses, creating a wave •Works best if each rod is ¼ of a wavelength long •The power in any direction is ...
E618: Pertubation theory for Helium atom
E618: Pertubation theory for Helium atom

... The stable states are those with the energies between Eground = −M α2 (1 + 1) andE∞ = −M α2 (1 + 0) as above E∞ , the atom can be ionized (one of the electrons is taken to infinity). all the states below E∞ are stable, and all the states above it belong to the continum. Thus, the stable states are t ...
Quantum Field Theory for Many Body Systems: 2016
Quantum Field Theory for Many Body Systems: 2016

... the ability to start from those laws and reconstruct the universe. For example, we know that quantum particles are described by the Schrödinger equation. A large collection of such particles forms a ball, which as we know, is well described by Newton’s classical equations of motion. In principle, o ...
Bioelectricity, Qi, and the Human Body
Bioelectricity, Qi, and the Human Body

Chemistry Chapter 5 Test Multiple Choice (1.5% each) Identify the
Chemistry Chapter 5 Test Multiple Choice (1.5% each) Identify the

... 23. The major difference between a 1s orbital and a 2s orbital is that a. the 2s orbital is at a higher energy level. b. the 2s orbital can hold more electrons. c. the 2s orbital has a slightly different shape. 24. The set of orbitals that are dumbbell-shaped and directed along the x, y, and z axes ...
On the Einstein-Podolsky-Rosen paradox
On the Einstein-Podolsky-Rosen paradox

... directions. Measurements can be made, say by Stern-Gerlach magnets, on selected components of the spins <7X and o2. If measurement of the component ox * 3 , where 3 is some unit vector, yields the value + 1 then, according to quantum mechanics, measurement of 5 2 - 3 must yield the value - 1 and vic ...
Chapter 5 Notes
Chapter 5 Notes

... Example: A certain violet light has a wavelength of 413 nm. What is the frequency of the light? ...
The Exam 2 Solutions are also available now.
The Exam 2 Solutions are also available now.

... degenerate with) the state shown in part (a)? (Include the state in (a) in your count.) The energy of an H atom state depends only on the n quantum number. For n = 4, the possibilities are 4s (only 1, m = 0), 4p (3 of them, m = –1, 0, +1), 4d (five of them, m = –2, –1, 0, +1, +2), and 4f (seven of t ...

Wave–particle duality