Spacetime structures of continuous
Spacetime structures of continuous

... for our understanding of physics. In quantum mechanics, next to the harmonic oscillator, the particle in a box provides much insight into the quantum world 共e.g. 关1兴兲. Recently, the problem of a quantum mechanical particle initially characterized by a Gaussian wave packet and moving in an infinite b ...
“Ballistic Build” - Straw Rocket Lab Student Objective – Students will
“Ballistic Build” - Straw Rocket Lab Student Objective – Students will

... -Voy = the initial velocity in the y direction - g = gravitational constant 9.88 m/s2 - t = the time elapsed With x and y initial velocity use Pythagorean theorem to find derivative (hypotenuse) Students will then continue with 2 more trials then finding average Students will move on adding known ma ...
Advanced Quantum Physics - Theory of Condensed Matter
Advanced Quantum Physics - Theory of Condensed Matter

A space-time geometric interpretation of the beta factor in Special
A space-time geometric interpretation of the beta factor in Special

... the common reference frame in which the distances and time between the events is measured. We may select a reference frame that recognizes x = y = z = t = 0 where and when the first flash bulb pops. Then we can measure the values of x, y, z, and t when and where the second flash bulb pops. We can al ...
Derivation of the Pauli exchange principle
Derivation of the Pauli exchange principle

Properties and Changes in Matter
Properties and Changes in Matter

Final Review
Final Review

... Molecular Orbital Theory, MO Theory. In MO theory, orbitals which describe electrons being able to move throughout the entire molecule (MOLECULAR ORBITALS) are approximated by a linear combination of the atomic orbitals of the atoms which make up the molecule. In valence bond theory, we consider the ...
Week 10: Space quantization
Week 10: Space quantization

... larmor frequency for a proton (i.e. a hydrogen nucleus) immersed in a uniform 5000 gauss magnetic field (typical for a modern MRI machine). In what range of the electromagnetic spectrum does a radiation pulse of this frequency lie? (2) Anomalous Zeeman effect of the Sodium D lines: Consider a gas of ...
Chapter 12 Quantum gases
Chapter 12 Quantum gases

feynman
feynman

... rate of clicks holding the electron emission at the electron gun constant what happens if we do experiments in one hole open only, then the other hole open only, then both holes open simultaneously? again we have P1 and P2 but P12 is not P1 + P2 as it was for bullets we can replace the electrons wit ...
Chapter 5 Rutherford`s Model Bohr`s Model Bohr`s Model Bohr`s
Chapter 5 Rutherford`s Model Bohr`s Model Bohr`s Model Bohr`s

... is quantized. It comes in chunks.  Quanta - the amount of energy needed to move from one energy level to another.  Quantum leap in energy.  Schrödinger derived an equation that described the energy and position of the electrons in an atom  Treated electrons as waves ...
LAB 9
LAB 9

Physical Chemistry Composite systems Adding angular momenta
Physical Chemistry Composite systems Adding angular momenta

Basic fluid dynamics
Basic fluid dynamics

... found and then often in severe approximation, such solutions still offer insight into the underlying mechanisms which experiments and computer calculations may carry to the domain of reality. The motion of solids is generally less rich than fluid motion, and it is precisely for this reason we use so ...
Spin-2 particles in gravitational fields
Spin-2 particles in gravitational fields

The Quantization of Wave Fields
The Quantization of Wave Fields

... The theory of quantum mechanics presented thus far in this book has dealt with systems that, in the classical limit, consist of material particles. We wish now to extend the theory so that it can be applied to the magnetic field and thus provide a consistent ba.9is for the quantum ...
CHAPTER 14 :OSCILLATIONS One mark
CHAPTER 14 :OSCILLATIONS One mark

Second Quantization
Second Quantization

Chapter 13 - AP Physics Vibrations and Waves Power Point-
Chapter 13 - AP Physics Vibrations and Waves Power Point-

“What is quantum theory about?” Jos Uffink March 26, 2010, Utrecht
“What is quantum theory about?” Jos Uffink March 26, 2010, Utrecht

Historical Review of Quantum Mechanics
Historical Review of Quantum Mechanics

... • QM predicts that both the wave and the particle models apply to all objects whatever the size • Depends on the energy (and thus the wavelength) if for an example an electron behaves as a wave or as a particle • Depends on with a photon interacts in order to know how to handle it: when a photon int ...
Bourdel-3 (doc, 273 KiB)
Bourdel-3 (doc, 273 KiB)

Nature template - PC Word 97
Nature template - PC Word 97

... expansion speed of the sample (i.e. its temperature, 100 nK corresponds to expansion speed of ~3 m/s for Rubidium 87), but also by the size of the vacuum chamber in which the measurement takes place. A low temperature can be obtained by using a combination of laser cooling and evaporative cooling te ...
Conservation of Linear Momentum Solutions
Conservation of Linear Momentum Solutions

... ptot | = m(2v) = 2mv; K = 21 m(2v)2 = 2mv 2 Momentum and kinetic energy are both conserved. 6. Devise a way to estimate numerically how far from “perfectly elastic” a collision (for example, between a ball and the ground when the former bounces) is. For example, if a ball bounced perfectly elastical ...
Lecture 3
Lecture 3

... Ordinary differential equations (ODE’s) definitions of ODE, initial (boundary) conditions, general and particular solutions of an ODE integration of some 1st order diff. equations separable 1st order ODE's integration of some 2nd order ODE’s using the method of integrating multipliers; 1st integral ...

Matter wave