E. Rutherford discovered that the atom had a hard core we call the
E. Rutherford discovered that the atom had a hard core we call the

ANGULAR MOMENTUM So far, we have studied simple models in
ANGULAR MOMENTUM So far, we have studied simple models in

Time independent Schrödinger Equation
Time independent Schrödinger Equation

The Second Law of Thermodynamics
The Second Law of Thermodynamics

Atom and Light
Atom and Light

... Particle Properties of Light • Max Planck (1900) – Blackbody Radiation – Electromagnetic energy (radiation) is emitted in discrete, particlelike packet. ...
May 2003
May 2003

Lecture 12: Review.
Lecture 12: Review.

... He excited states have configurations 1snl and can have either S=0 (singlet states) or S=1 (triplet states). How do we label the atomic states in a general case? The atomic state is described by its electronic configuration (1s2, for example) and a "term" symbol that describes total S, L, and J of a ...
PHYS 212 - Modern Physics - American University of Beirut
PHYS 212 - Modern Physics - American University of Beirut

quantum, relativistic and classical physics
quantum, relativistic and classical physics

Physics 322 Midterm 2 1 (15 pt) 2 (50 pt) 3 (20 pt) 4 (15 pt) total (100
Physics 322 Midterm 2 1 (15 pt) 2 (50 pt) 3 (20 pt) 4 (15 pt) total (100

... d) (15 pt) Suppose the capacitor is made of parallel circular plates each with radius R with vacuum in between. Suppose the charge density on one of the plates for t > 0 is σ (t) and the uniform electric field region between the capaciator plates is then characterized by ~E ≈ σ (t) ẑ. ...
Chapter 38
Chapter 38

... A beam of alpha particles is incident on a target of lead. A particular alpha particle comes in "head-on" to a particular lead nucleus and stops 6.50×10−14 m away from the center of the nucleus. (This point is well outside the nucleus). Assume that the lead nucleus, which has 82 protons, remains at ...
Fall 2005
Fall 2005

Exam #: Printed Name: Signature: PHYSICS
Exam #: Printed Name: Signature: PHYSICS

... An aqueous solution at room temperature, T , contains a small concentration of magnetic atoms, each of which has a net spin of 1/2 and a magnetic moment of m. The solution is placed in a an external magnetic field pointing in the z direction which ~ = B(z)ẑ. Assume specifically that B has the value ...
particlephysics
particlephysics

... • Experimentally β particle energy varied – problem as decay releases fixed amount • (anti) neutrino has energy left over ...
January 2005
January 2005

... J05E.2 - Light Incident on a Medium Problem An electromagnetic wave of frequency ω propagates through vacuum along the z axis and is incident on homogeneous medium which fills space for z ≥ 0. The medium has a magnetic permeability µ and real dielectric constant . The medium has a large conductivit ...
Open Questions in Physics
Open Questions in Physics

... And the result….. "I don't like it, and I'm sorry I ever had anything to do with it." - Erwin Shrodinger, speaking about quantum mechanics ...
Quantum Mechanics Problem Set
Quantum Mechanics Problem Set

Example 38.2
Example 38.2

... b. Explain why the existence of a cutoff frequency in the photoelectric effect more strongly favors a particle theory rather than a wave theory of light. c. In both the photoelectric effect and in the Compton Effect we have a photon colliding with an electron causing the electron to fly off. What th ...
Waves and the Schroedinger Equation
Waves and the Schroedinger Equation

... Thus, from the last expression, we see that stationary waves have fixed nodal points; zero amplitude versus time at fixed points). Now, we have gone about things in a reverse manner, but we can consider the following. We have written a representation of a wave-particle entity as a sinusoidal functio ...
lecture 5 radiation and matter
lecture 5 radiation and matter

... Elastic and inelastic events in EM, a beam e- can lose its kinetic energy in many different events, each of these is, at least in part, a quantized transfer ...
Контрольная работа для 2 курса заочного отделения (физич
Контрольная работа для 2 курса заочного отделения (физич

... Huygens and Isaac Newton: light was thought either to consist of waves (Huygens) or of particle (Newton). Through the work of Albert Einstein, Louis de Broglie, and many others, current scientific theory holds that all particles also have a wave nature (and vice versa).[1] This phenomenon has been v ...
The Hydrogen Atom - Valdosta State University
The Hydrogen Atom - Valdosta State University

... vary since real atoms don’t have fixed distances between nuclei and electrons. 2. Use separation of variables to pull out part already solved for rigid rotor (angular part). 3. Show solution for radial part (r dependent part). E energy will depend only on the n quantum number (and not m or l). Final ...
review
review

12.1: What are electromagnetic waves?
12.1: What are electromagnetic waves?

... EM waves can behave as both a wave and a particle (the particle-wave duality).  Phenomenon discovered in 1887 by Heinrich Hertz.  Experiment known as the “photo-electric effect”:  Shine a light on metal and the metal will eject electrons.  Whether it happened depended on the frequency of the lig ...
Many Worlds Theory/ `Relative State` formation of Quantum Mechanics
Many Worlds Theory/ `Relative State` formation of Quantum Mechanics

Theoretical and experimental justification for the Schrödinger equation

The theoretical and experimental justification for the Schrödinger equation motivates the discovery of the Schrödinger equation, the equation that describes the dynamics of nonrelativistic particles. The motivation uses photons, which are relativistic particles with dynamics determined by Maxwell's equations, as an analogue for all types of particles.This article is at a postgraduate level. For a more general introduction to the topic see Introduction to quantum mechanics.