1 / 32

Time Travelling

Scientific Theory. Time Travelling. Things You Need To Know. Dimensions Quantum Mechanics Parallel universes String Theory CERN. Dimensions – 2D. Dimensions Quantum Mechanics Parallel universes String Theory CERN.

noel
Télécharger la présentation

Time Travelling

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Scientific Theory Time Travelling

  2. Things You Need To Know • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN

  3. Dimensions – 2D • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN We are able to determine the position of any point on the plan by it’s distance from the axes. René Descartes System

  4. Dimensions – 3D • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN We are able to determine the position of any point on the plan by it’s distance from the axes. Classical Physics Dimensions

  5. Dimensions – 4D • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN

  6. Dimensions – Relativity • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN EVERY THING IS RELATIVE TO ANOTHER

  7. Dimensions – Space Time • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN Space-time Bends Around The Earth

  8. Dimensions – Space Time • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN Light Bends Around The Sun

  9. Quantum Mechanics– Schrödinger equation • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN Where  ’Ψ’  is the wave function of the quantum system  ’i’ is the imaginary unit ‘ħ’ is the reduced Planck constant ‘Ĥ’ is the Hamiltonian operator

  10. Quantum Mechanics– Schrödinger equation • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN The electron of the hydrogen atom is at 2 different places at the same instant. Described by Schrödinger equation.

  11. Quantum Mechanics – Probability • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN “Nothing is true everything is permitted” - Altair

  12. Quantum Mechanics – Schrödinger Cat • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN The Cat is alive or died (BUT NOT BOTH)

  13. Parallel Universe • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN EVERY PROBABILITY IS A PARALLEL UNIVERSE

  14. String Theory • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN String theory : Theory Of Everything

  15. String Theory • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN Matter Molecular structure (atoms) Atom (protons, neutrons, electrons) Quarks Strings

  16. String Theory – Space time Dimensions • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN There are 6 Types of String theory..

  17. String Theory – moving between parallel universe • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN Parallel universes theory VS. String Theory

  18. CERN • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN Large Hadrons Collider

  19. CERN • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN What is happening in CERN ?

  20. CERN • Dimensions • Quantum Mechanics • Parallel universes • String Theory • CERN The Nobel Prize in Physics should go to the physicist who did not discover a new particle that year ! - J. Robert Oppenheimer “1980s”

  21. Conclusion

  22. Conclusion We can not travel back in time, but who knows if we can or can not travel to the future.

  23. Thank you for listening

  24. Resources • Physics Of The Impossible “MichioKaku”. • مبادئ ميكانيكا الكم – موريس ديريك • MichioKaku: The Universe in a Nutshell • Young & Freedman University Physics 13th Edition • www.cern.ch

More Related