Presentation is loading. Please wait.

Presentation is loading. Please wait.

Wave-Particle Duality

Published byAmbrose Higgins Modified over 6 years ago

Similar presentations

Presentation on theme: "Wave-Particle Duality"— Presentation transcript:

1 Wave-Particle Duality

2 The Legacy of Max Planck
Before planck, light had been shown to be wave motion. Light does things that only waves do E.g. diffraction- this is where light spreads out when it passes through a single slit

3

4 Diffraction at a slit Only waves behave like this
A diffraction pattern is produced when laser light passes through a fine slit

5 Interference Waves interfere with each other, they can reinforce each other or cancel each other out

6 Interference Waves interfere with each other, they can reinforce each other or cancel each other out

7

8 After Planck Planck had found that light under certain circumstances behaved as a stream of particles called photons. These particles are as real as electrons. The wave and particle nature of light are both real. We need both ideas to explain the behaviour of light. This is called wave-particle duality

9 De Broglie It was not long before De Broglie asked this question:
Is it possible that tiny particles like electrons could have wave behaviour? Could they even have a wavelength?

10 Electrons in atoms Electrons which orbit nuclei are a particular problem. Theory said they should not do this. Any accelerating electron should release energy as photons and should spiral into the nucleus

11 The electron as a wave De Broglie suggested that the stable orbits around an atom corresponded with whole numbers of waves. The regions between the orbits could not be occupied because a whole number of waves would not fit.

12 The De Broglie Wavelength
Theory led De Broglie to an equation for the wavelength of an electron λ is the wavelength associated with the electron h is planck’s constant mv is the mass x the velocity of the electron ( this is called the momentum of the electron) The equation applies to all particles but only very small particles like electrons have measurable wavelengths.

13 Electron Diffraction If electrons have a wavelength theey should behave as waves under the right circumstances. For instance they should exhibit effects like diffraction and interference.

14 Electron diffraction The wave nature of electrons is well established and allows us to build electron microscopes This was the first electron diffraction pattern ever photographed. The “gaps” necessary are so small that they are in fact the gaps between atoms in a crystal lattice. Which use the wave nature of the electron to produce images

15

Download ppt "Wave-Particle Duality"

Similar presentations

The 4 important interactions of photons

The 4 important interactions of photons
Some issues in Science? Pluto Duck-Billed Platypus.

Some issues in Science? Pluto Duck-Billed Platypus.
Electrons as Waves Sarah Allison Claire.

Electrons as Waves Sarah Allison Claire.
Where is the Electron Located?

Where is the Electron Located?
Wave-Particle Duality

Wave-Particle Duality
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.
Atoms: Not to Be Cut. Dalton’s Theory He deduced that all elements are composed of atoms. He deduced that all elements are composed of atoms. Atoms are.

Atoms: Not to Be Cut. Dalton’s Theory He deduced that all elements are composed of atoms. He deduced that all elements are composed of atoms. Atoms are.
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.
Chapter 15: Duality of Matter Did you read chapter 15 before coming to class? A.Yes B.No.

Chapter 15: Duality of Matter Did you read chapter 15 before coming to class? A.Yes B.No.
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!
PHY 102: Quantum Physics Topic 3 De Broglie Waves.

PHY 102: Quantum Physics Topic 3 De Broglie Waves.
Pre-IB/Pre-AP CHEMISTRY

Pre-IB/Pre-AP CHEMISTRY
The Photoelectric Effect

The Photoelectric Effect
What is Light? What are Electrons?. Light Is light a wave or a stream of particles?

What is Light? What are Electrons?. Light Is light a wave or a stream of particles?
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.
Electrons in Atoms The Quantum Model of the Atom.

Electrons in Atoms The Quantum Model of the Atom.
Wave-Particle Duality of Light

Wave-Particle Duality of Light
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.
G. Energy of a photon You should be able to: describe the particulate nature (photon model) of electromagnetic radiation state that a photon is a quantum.

G. Energy of a photon You should be able to: describe the particulate nature (photon model) of electromagnetic radiation state that a photon is a quantum.
Electromagnetic Spectrum Light as a Wave - Recap Light exhibits several wavelike properties including Refraction Refraction: Light bends upon passing.

Electromagnetic Spectrum Light as a Wave - Recap Light exhibits several wavelike properties including Refraction Refraction: Light bends upon passing.

Similar presentations

Ads by Google