• Study Resource
  • Explore
    • Arts & Humanities
    • Business
    • Engineering & Technology
    • Foreign Language
    • History
    • Math
    • Science
    • Social Science

    Top subcategories

    • Advanced Math
    • Algebra
    • Basic Math
    • Calculus
    • Geometry
    • Linear Algebra
    • Pre-Algebra
    • Pre-Calculus
    • Statistics And Probability
    • Trigonometry
    • other →

    Top subcategories

    • Astronomy
    • Astrophysics
    • Biology
    • Chemistry
    • Earth Science
    • Environmental Science
    • Health Science
    • Physics
    • other →

    Top subcategories

    • Anthropology
    • Law
    • Political Science
    • Psychology
    • Sociology
    • other →

    Top subcategories

    • Accounting
    • Economics
    • Finance
    • Management
    • other →

    Top subcategories

    • Aerospace Engineering
    • Bioengineering
    • Chemical Engineering
    • Civil Engineering
    • Computer Science
    • Electrical Engineering
    • Industrial Engineering
    • Mechanical Engineering
    • Web Design
    • other →

    Top subcategories

    • Architecture
    • Communications
    • English
    • Gender Studies
    • Music
    • Performing Arts
    • Philosophy
    • Religious Studies
    • Writing
    • other →

    Top subcategories

    • Ancient History
    • European History
    • US History
    • World History
    • other →

    Top subcategories

    • Croatian
    • Czech
    • Finnish
    • Greek
    • Hindi
    • Japanese
    • Korean
    • Persian
    • Swedish
    • Turkish
    • other →
 
Profile Documents Logout
Upload
4.3 Newtonian Mechanics: Many Particles It`s easy to
4.3 Newtonian Mechanics: Many Particles It`s easy to

Document
Document

... “I have seen farther, it is by standing on the shoulders of giants” - Newton in a letter to Robert Hooke “. . .Our understanding does not advance just by slow and steady building on previous work. Sometimes as with Copernicus and Einstein, we have to make a leap to new world picture. Maybe Newton ...
6.007 Lecture 38: Examples of Heisenberg
6.007 Lecture 38: Examples of Heisenberg

Physical Chemistry II – Exam 1 SOLUTIONS
Physical Chemistry II – Exam 1 SOLUTIONS

Student - Davison Chemistry Website
Student - Davison Chemistry Website

... 2.) ___________________ (EM): a wave that does not require a material medium to travel; it propagates by electric and magnetic fields. c. Wave Travel 1.) Transverse: displacement of the medium is ____________________ to the direction of propagation of the wave. 2.) Longitudinal: displacement of the ...
Part 3 - MGNet
Part 3 - MGNet

... In gas dynamics an ideal gas satisfies the law r = nT, where r is the pressure of the gas. For the isentropic case T(n) = T0n2/3 and using the diffusion matrix above, the electron current density is rewritten as: ...
CHAPTER 3: The Experimental Basis of Quantum Theory
CHAPTER 3: The Experimental Basis of Quantum Theory

What is the relationship between kinetic and potential energy?
What is the relationship between kinetic and potential energy?

Modern Physics
Modern Physics

Statistical Physics
Statistical Physics

... In classical physics, the number of particles with energy between E and E + dE, at temperature T, is given by ...
33-6 Radiation Pressure
33-6 Radiation Pressure

... 33-6 Radiation Pressure Electromagnetic waves  have linear momentum as well as energy  exerted a radiation pressure on an object by  shining light on it. the pressure  must be very small  like a camera flash  every photographic flash could be like a punch. Finding an expression  for the press ...
Harmonic oscillator - Vibration energy of molecules 1. Definitions
Harmonic oscillator - Vibration energy of molecules 1. Definitions

... an harmonic oscillator with mass m = MH (the iodine atom is quasi motionless) and force constant k = 313.8 N.m 1 . Calculate the frequency ⌫0 of the oscillator. Evaluate the di↵erence between two adjacent energy levels. Calculate the wavelength of light necessary to induce a transition between two c ...
Light and Electrons!
Light and Electrons!

... -Some claimed that light had to be particles because there was evidence of it going around objects; also Photoelectric Effect by Einstein helped the cause -Photoelectric Effect theorized that light has photons, or “packets” of energy -A man named Thomas Young proved, however, that light acts in wave ...
Seminar 4: CHARGED PARTICLE IN ELECTROMAGNETIC FIELD
Seminar 4: CHARGED PARTICLE IN ELECTROMAGNETIC FIELD

... where ψ is an arbitrary function of the coordinates and time. These transformations are known as the gauge transformations. Problem 14. Lagrangian of Charged Particle in Electromagnetic Field Show that the Lagrangian of a particle with the charge q moving with the velocity v in an electromagnetic fi ...
763620S Problem Set 2 Autumn 2015 1. Continuous Random Walk
763620S Problem Set 2 Autumn 2015 1. Continuous Random Walk

4217
4217

Electron Orbital
Electron Orbital

... to another.  Quantum jump is amount of energy required to move an electron from one energy level to another. ...
File
File

... The amount of energy gained by an electron being accelerated a potential difference of 1 Volt. ( 1 eV = 1.6 x 10-19 Joules) Photoelectric emission: The emission of an electron from the surface of a metal when light of a suitable frequency falls on it. Photon: a packet of electromagnetic energy. (its ...
Schrödinger Equation
Schrödinger Equation

... This Bohr model picture of the orbits has some usefulness for visualization so long as it is realized that the "orbits" and the "orbit radius" just represent the most probable values of a considerable range of values. ...
Nuclear and Modern Physics
Nuclear and Modern Physics

...  It warms Earth’s interior, is in the air we breathe, and is present in all rocks (some in trace amounts).  It is natural. ...
Example 27-1
Example 27-1

Presentation
Presentation

... blackbody radiation by assuming that energy exchanges are discrete rather then continuous. • The Planck constant h = 6.55 x 10-27 erg sec can be considered the building block of quantum mechanics. • h is a unit of action (energy x time) as well as angular momentum. • Angular momentum in quantum phys ...
The Electron - Student Moodle
The Electron - Student Moodle

... Because an electron has mass (though it’s very small—about 1/1836 of the mass of a proton or neutron), this means electrons are particles, and all of the equations that apply to motion of solid particles also apply to electrons. However, an electromagnetic wave is a wave of electricity, and electric ...
Quantum Mechanics 1 - University of Birmingham
Quantum Mechanics 1 - University of Birmingham

... 3.5 Heisenberg’s Uncertainty Principle “It is impossible to specify simultaneously, with precision, both the momentum and the position of a particle*” (*if it is described by Quantum Mechanics) ...
Slide 1 - StCPhysicsDept
Slide 1 - StCPhysicsDept

... https://upload.wikimedia.org/wikipedia/commons/thumb/9/9f/Field_lines_ parallel_plates.svg/524px-Field_lines_parallel_plates.svg.png ...
< 1 ... 1010 1011 1012 1013 1014 1015 1016 1017 1018 ... 1073 >

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.
  • studyres.com © 2025
  • DMCA
  • Privacy
  • Terms
  • Report