Www.ag-physics.org 1 The Origin of Mass: - Inertial Mass - Bonn 2010 by Albrecht Giese, Hamburg The Origin of Mass 1.

Slides:

Advertisements

Similar presentations

Where is the Electron Located?

Advertisements

H6: Relativistic momentum and energy

Quantum Mechanics Chapter 7 §4-5. The de Broglie Relation All matter has a wave-like nature… All matter has a wave-like nature… Wave-particle.

Cutnell/Johnson Physics 7th edition

The photon, the quantum of light

Early Quantum Theory and Models of the Atom

Quantum Mechanics in a Nutshell Mr Finn April 2011.

Unit 12: Part 3 Quantum Mechanics and Atomic Physics.

Start EM Ch.5: Magnetostatics finish Modern Physics Ch.7: J=L+S Methods of Math. Physics, Thus. 24 Feb. 2011, E.J. Zita Magnetostatics: Lorentz Force and.

CHAPTER 6 ELECTRONIC STRUCTURE OF ATOMS. CHAPTER 6 TOPICS THE QUANTUM MECHANICAL MODEL OF THE ATOM USE THE MODEL IN CHAPTER 7 TO EXPLAIN THE PERIODIC.

Structure of Atoms Rutherford's model of the atom was a great advance, however, it does not give an satisfactory treatment of the electrons. To improve.

Symposium on philosophy and the empirical sciences 16:15Welcome Jaakko Hintikka: Natural philosophy in quantum theory and quantum theory in natural philosophy.

Phys 102 – Lecture 24 The classical and Bohr atom 1.

Or Can all laws of nature be reduced to one single system?

Modern physics and Quantum Mechanics Physical Systems, 8 Mar.2007 EJZ More angular momentum and H atom Compare to Bohr atom Applications: Bohr magneton,

Spectra of Atoms When an atom is excited, it emits light. But not in the continuous spectrum as blackbody radiation! The light is emitted at discrete wavelengths.

The Photoelectric Effect

PHY 042: Electricity and Magnetism Introduction Prof. Pierre-Hugues Beauchemin.

1 The Origin of Gravity ≡ General Relativity without Einstein ≡ München 2009 by Albrecht Giese, Hamburg The Origin of Gravity 1.

Dr. Michael Cooke Dr. David Schmitz Fermilab. Newton’s Laws of Motion o o 1. Objects in motion want to stay in motion and objects at rest want to stay.

Wave-Particle Duality of Light

Chapter 26 Relativity. General Physics Relativity II Sections 5–7.

Particle Physics J4 Leptons and the standard model.

A new era in fundamental physics Higgs: from theory to experiments André França – Baku 2013.

Physics 311 Classical Mechanics Welcome! Syllabus. Discussion of Classical Mechanics. Topics to be Covered. The Role of Classical Mechanics in Physics.

Lecture 19: The deuteron 13/11/2003 Basic properties: mass: mc 2 = MeV binding energy: (measured via  -ray energy in n + p  d +  ) RMS.

Advanced mechanics Physics 302. Instructor: Dr. Alexey Belyanin Office: MIST 426 Office Phone: (979)

It’s all Relativity. March, 1905: Twenty six year old Albert Einstein demonstrates the particle nature of light by explaining the photoelectric effect.

PHYS 221 Recitation Kevin Ralphs Week 12. Overview HW Questions Chapter 27: Relativity – History of Special Relativity (SR) – Postulates of SR – Time.

Fundamental principles of particle physics Our description of the fundamental interactions and particles rests on two fundamental structures :

6.852: Distributed Algorithms Spring, 2008 April 1, 2008 Class 14 – Part 2 Applications of Distributed Algorithms to Diverse Fields.

Wave-Particle Duality - the Principle of Complementarity The principle of complementarity states that both the wave and particle aspects of light are fundamental.

1 The Origin of Mass: - Inertial Mass - München 2009 by Albrecht Giese, Hamburg The Origin of Mass 1.

Chapter 28: Special Relativity

String Theory Mihir John What are the most basic constituents that make up the universe around us?

Dr. Michael Cooke Dr. David Schmitz Fermilab

RELATIVITY Based on Physical Processes B udapest 2009 by Albrecht Giese Hamburg, Germany 1 The Physical Causes of Relativity.

Introduction Classical Physics Laws: Mechanics (Newton), Electromagnetism (Maxwell), Optics, Fluids,.. Etc. Modern Physics: What do we mean? Are the laws.

The Higgs Boson Observation (probably) Not just another fundamental particle… July 27, 2012Purdue QuarkNet Summer Workshop1 Matthew Jones Purdue University.

Physics 541 A quantum approach to condensed matter physics.

Vibrational Motion Harmonic motion occurs when a particle experiences a restoring force that is proportional to its displacement. F=-kx Where k is the.

Essential idea: The relativity of space and time requires new definitions for energy and momentum in order to preserve the conserved nature of these laws.

Introduction to Modern Physics A (mainly) historical perspective on - atomic physics  - nuclear physics - particle physics.

ELECTROMAGNETIC PARTICLE: MASS, SPIN, CHARGE, AND MAGNETIC MOMENT Alexander A. Chernitskii.

1 The Re-Physicalization of Physics by Albrecht Giese Hamburg, Germany Puebla The Re-Physicalization of Physics.

Water （ H 2 O ） oxygen atom （ O ） proton （ p ） electrons （ e ） neutron （ n ） 3 quarks What the matters are made out of ? 3 quarks

PHYS 2006 Tim Freegarde Classical Mechanics. 2 LINEAR MOTION OF SYSTEMS OF PARTICLES Newton’s 2nd law for bodies (internal forces cancel) rocket motion.

E. Todesco, Milano Bicocca January-February 2016 Appendix B: A digression on divergences in electromagnetism and lengths in atomic physics Ezio Todesco.

Copyright © 2009 Pearson Education, Inc. Biot-Savart Law.

The Atomic Models of Thomson and Rutherford Rutherford Scattering The Classic Atomic Model The Bohr Model of the Hydrogen Atom Successes & Failures of.

Fundamental principles of particle physics Our description of the fundamental interactions and particles rests on two fundamental structures :

Taking RELATIVITY back from Principles to Physical Processes by Albrecht Giese Hamburg, Germany London The Physical Causes of Relativity.

Chapter 9, 28 Modern Physics Introduction to Relativity and Quantum Physics.

The bound-electron g factor in light ions

Quantum Field Theory (PH-537) M.Sc Physics 4th Semester

Elementary Particle Physics

Preamble to the Constant Alpha

5. Wave-Particle Duality - the Principle of Complementarity

Physics 5333 Spring 2015 (Chapter 1: getting started)

Biot-Savart Law.

Atomic Structure the wave nature of light 1 2 3 2 Hz 4 Hz 6 Hz 

Hydrogen relativistic effects II

Chapter 28: Special Relativity

The Quantum (Wave) Mechanics Model

Superluminal Quantum Models of the Electron and the Photon

Classical Physics Describes objects and their interactions on a macroscopic scale Mechanics Electromagnetism Thermodynamics Seemingly very successful “There.

Particle Physics: Status and Perspectives Part 8: The Precision Frontier Manfred Jeitler SS 2018.

5. Wave-Particle Duality - the Principle of Complementarity

Classical Principles of Electromagnetism

March 6th and 7th 1. In the gold foil experiment most particles:

Presentation transcript:

1 The Origin of Mass: - Inertial Mass - Bonn 2010 by Albrecht Giese, Hamburg The Origin of Mass 1

2 Sir Arthur Eddington: in “ The Philosophy of Physical Science” 2 ‘ The Origin of Mass The mathematical stage was reached:  For relativity in 1905 – 1907 (Einstein – Minkowski)  For QM and so for particle physics in 1927 (Solvay conference) … in physics everything depends on the insight with which the ideas are handled before they reach the mathematical stage.

3 Contents 1.The particle model: Particles are expanded - how do we know? 2.The inertia of an expanded system - the general mechanism 3 ‘ The Origin of Mass

4 “Zitterbewegung” (Schrödinger for the electron) Completed  Structure of an Elementary Particle: ‘ No conflict with the experiments (de Broglie 1924 ) (Dirac / Schrödinger 1928/30) (Relativity) (Momentum law) orbit (Spin, mag. moment) This is called here the Basic Particle Model valid for every elementary particle The Origin of Mass 4

5 Basic Mechanism of Mass 5 ‘ The Origin of Mass Every expanded system has inevitably an inertial behaviour; even if the constituents do not have any mass Cause is the finite speed of light ‘c’

/rmass 6 Static field of a point charge ‘ The Origin of Mass 6 U

/rmass 7 Field of a moving charge ‘ The Origin of Mass 7 U

/rmass 8 Bind of Particles at Distance ‘ The Origin of Mass 8 Note: The binding force is the strong force Potential

/rmass 9 Bind of Particles at distance in motion ‘ F rr rr F The Origin of Mass 9

/rmass 10 The Mass Equation ‘ The classical magnetic moment:    Or both equations combined: = Bohr magneton in case of the electron universally valid for all elem. particles Radius R computed from the magnetic moment  and then inserted above  the correct mass m universal for all elem. particles! The Origin of Mass 10

/rmass 11 Mass and Increase of Mass ‘ Relativistic increase of mass: From  Spin: Classical angular momentum Putting the object to motion:  (popular ) is constant The Origin of Mass 11

/rmass 12 Magnetic Moment of the Electron (Anomaly) ‘ g = Landé-factor of the electron The Basic Particle Model has to be corrected by the contribution of the electric field to the strong field. The contribution is: The Landé-factor determined by Julian Schwinger 1948 using vacuum polarization (Noble prize 1965): The Origin of Mass 12 Magnetic moment of the electron without vacuum polarization or any other QM contribution

/rmass 13 The physical meaning of ħ and  ‘ From the equations: where we get which depends on the field constant of the bind and is the field constant of the Strong Interaction and The fine structure constant  is defined as follows: is the strength of the electric field So, indicates the relation between the electric and strong field The Origin of Mass 13

14 Particle Model Arguments for point like (present theory) vs. expanded:  Scattering of electrons  Renormalization – is mathematical solution, no physics  The magnetic moment – classically!! 14 ‘ The Origin of Mass Elementary particles are expanded – this is in conflict with present official physics

15 Particle Model Arguments for point like (present theory):  Scattering of electrons – is no argument! 15 ‘ The Origin of Mass Elementary particles are expanded – this is in conflict with present official physics

16 Particle Model Arguments for point like (present theory) vs. expanded:  Scattering of electrons  Renormalization – is mathematical solution, no physics  The magnetic moment – classically!! 16 ‘ The Origin of Mass Elementary particles are expanded – this is in conflict with present official physics

17 Proof of the model (expanded!): The magnetic moment (classically) 17 ‘ The Origin of Mass Electron diffraction at multiple slits (Experiment of Jönsson (1974)) From A(x,z), and v follows  (de Broglie-Frequency) = 3.86 * m Radius Loop current Magn. moment = * A*m 2 Magn. moment measured = * A*m 2 Radius according to Schrödinger (from the Dirac function)  4 * m = Dirac

18 ‘ The Origin of Mass Conflict with present particle theories? Argument: There is already a theory to explain mass: The Higgs Theory. – Nothing more is needed Counter-argument: A. The Higgs Theory is the one which is not needed C. No indication of the Higgs-Boson or of any SuSy particle was ever seen B. The Higgs Theory is only possible by use of the Standard Model and Supersymmetry - The Standard Model has 19 free parameters for 12 independent particles - Incl. SuSy there are 124 free parameters for 24 independent particles. Is that a honestly usable theory??

19 Summary: What is the explaining potential of this model?  The “Mass” of a particle  The magnetic moment  The constancy of the spin  Newton’s law of motion  Energy conservation (in mechanics) ‘‘  Special Relativity - Dilation - Increase of mass - Mass-Energy-Relation The Basic Particle Model explains:  General Relativity / Gravity with - Dark Matter - Dark Energy - Quantum Gravity The Origin of Mass 19

/gravity 20 The End ‘ The Origin of Mass 20