Presentation is loading. Please wait.

Presentation is loading. Please wait.

AS Physics Unit 3 Matter Waves Extension AS Physics Unit 3 Matter Waves Extension Mr D Powell.

Published byGarey Dickerson Modified over 9 years ago

Similar presentations

Presentation on theme: "AS Physics Unit 3 Matter Waves Extension AS Physics Unit 3 Matter Waves Extension Mr D Powell."— Presentation transcript:

1 AS Physics Unit 3 Matter Waves Extension AS Physics Unit 3 Matter Waves Extension Mr D Powell

2 Mr Powell 2008 Index Summary We can think of electrons as waves We can think of electrons as particles Newtonian Mechanics works in certain cases (simple stuff) If we think of electrons in a quantum way (as waves) the maths always works out but the calculations are more complex To build the structure, the scientists used a scanning tunneling microscope (STM) to individually place 48 iron atoms on a copper surface in a circle roughly 143 angstroms across. Then, using the STM again to sense electron behavior inside the corral, they detected "local densities," which appear as waves, at the very intervals predicted by quantum mechanics -- specifically, the Schrodinger equation for a particle in a hard-wall enclosure. The standing waves appear when iron atoms scatter the copper's superface electrons.

3 Mr Powell 2008 Index Wave nature of the electron Extension

4

5

6

7

8 Mr Powell 2008 Index DeBroglie Hypothesis – Mathematical Proof As a young student at the University of Paris, Louis DeBroglie had been impacted by relativity and the photoelectric effect, both of which had been introduced in his lifetime. The photoelectric effect pointed to the particle properties of light, which had been considered to be a wave phenomenon. He wondered if electrons and other "particles" might exhibit wave properties. The application of these two new ideas to light pointed to an interesting possibility: relativityphotoelectric effect Extension

9 Mr Powell 2008 Index DeBroglie Hypothesis - Summary Suggested by De Broglie in about 1923, the path to the wavelength expression for a particle is by analogy to the momentum of a photon.wavelength expressionmomentum Starting with the Einstein formula:Einstein formula Another way of expressing this is Therefore, for a particle of zero rest massrest mass For a photon:photon The momentum-wavelength relationship for a photon can then be derived and this DeBroglie wavelength relationship applies to other particles as well. Extension

10

11

Download ppt "AS Physics Unit 3 Matter Waves Extension AS Physics Unit 3 Matter Waves Extension Mr D Powell."

Similar presentations

The 4 important interactions of photons

The 4 important interactions of photons
Quantum Mechanics AP Physics B.

Quantum Mechanics AP Physics B.
What Did Einstein Say About Light?

What Did Einstein Say About Light?
Lecture Outline Chapter 30 Physics, 4th Edition James S. Walker

Lecture Outline Chapter 30 Physics, 4th Edition James S. Walker
Quantum Mechanics Chapter 7 §4-5. The de Broglie Relation 1924 1924 All matter has a wave-like nature… All matter has a wave-like nature… Wave-particle.

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.
Wave Particle Duality – Light and Subatomic Particles

Wave Particle Duality – Light and Subatomic Particles
Knight - Chapter 28 (Grasshopper Book) Quantum Physics.

Knight - Chapter 28 (Grasshopper Book) Quantum Physics.
© 2007 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.

© 2007 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.
Electron Configuration and New Atomic Model Chapter 4.

Electron Configuration and New Atomic Model Chapter 4.
Atomic Structure From Bohr to Quantum Richard Lasky – Summer 2010.

Atomic Structure From Bohr to Quantum Richard Lasky – Summer 2010.
The de Broglie Wavelength Lesson 11. Review Remember that it has been proven that waves can occasionally act as particles. (ie: photons are particles.

The de Broglie Wavelength Lesson 11. Review Remember that it has been proven that waves can occasionally act as particles. (ie: photons are particles.
Topic 13: Quantum and Nuclear physics “The wave nature of matter” Matter behaving as a wave? Ridiculous!

Topic 13: Quantum and Nuclear physics “The wave nature of matter” Matter behaving as a wave? Ridiculous!
General Physics (PHY 2140) Lecture 15  Modern Physics 1.Quantum Physics The Compton Effect Photons.

General Physics (PHY 2140) Lecture 15  Modern Physics 1.Quantum Physics The Compton Effect Photons.
Quantum Theory of Light A TimeLine. Light as an EM Wave.

Quantum Theory of Light A TimeLine. Light as an EM Wave.
Quantum Mechanical Momentum and You! James G. O’Brien New Paltz Physics Talk SUNY New Paltz May 5 th, 2008 Dedicated to the late Dr. Walker.

Quantum Mechanical Momentum and You! James G. O’Brien New Paltz Physics Talk SUNY New Paltz May 5 th, 2008 Dedicated to the late Dr. Walker.
Dr. Jie ZouPHY 13711 Chapter 40 Introduction to Quantum Physics (Cont.)

Dr. Jie ZouPHY Chapter 40 Introduction to Quantum Physics (Cont.)
Classical ConceptsEquations Newton’s Law Kinetic Energy Momentum Momentum and Energy Speed of light Velocity of a wave Angular Frequency Einstein’s Mass-Energy.

Classical ConceptsEquations Newton’s Law Kinetic Energy Momentum Momentum and Energy Speed of light Velocity of a wave Angular Frequency Einstein’s Mass-Energy.
The particle-wave duality

The particle-wave duality
Chapter 7: Electronic Structure Electrons in an atom determine virtually all of the behavior of the atom. Quantum theory – the study of how energy and.

Chapter 7: Electronic Structure Electrons in an atom determine virtually all of the behavior of the atom. Quantum theory – the study of how energy and.
Wave Nature of Matter Light/photons have both wave & particle behaviors. Waves – diffraction & interference, Polarization. Acts like Particles – photoelectric.

Wave Nature of Matter Light/photons have both wave & particle behaviors. Waves – diffraction & interference, Polarization. Acts like Particles – photoelectric.

Similar presentations

Ads by Google