Presentation is loading. Please wait.

Presentation is loading. Please wait.

There is nothing new to be discovered in physics now. All that remains is more and more precise measurement. (Lord Kelvin, 1900) Address to the British.

Published byNickolas Nelson Modified over 8 years ago

Similar presentations

Presentation on theme: "There is nothing new to be discovered in physics now. All that remains is more and more precise measurement. (Lord Kelvin, 1900) Address to the British."— Presentation transcript:

1 There is nothing new to be discovered in physics now. All that remains is more and more precise measurement. (Lord Kelvin, 1900) Address to the British Association for the Advancement of Science, 1900 ©Hunterian Museum and Art Gallery, University of Glasgow. Licensor www.scran.ac.uk.

2 All that remains to do in physics is to fill in the sixth decimal place (Albert Michelson, 1894)

3 What did we know about science, the world and the universe in 1900?

4 What has been discovered in physics since 1900?

5 Fortunately… ‘No matter how we may single out a complex from nature...its theoretical treatment will never prove to be ultimately conclusive... I believe that this process of deepening of theory has no limits.’ (Albert Einstein, 1917)

6 Lord Kelvin did have a little idea… … he mentioned two ‘clouds’ on the horizon of physics: 1) blackbody radiation 2) the Michelson–Morley experiment.

7 1900 1910 1920 1930 1940 1950 1960 1970 1980 1990 2000 2010 FieldsParticles Electromagnetic Special relativity Quantum mechanics Wave / particle Fermions / Bosons Spin Antimatter W bosons QED Maxwell SUSY Higgs Superstrings Universe Newton Kinetic theory, Thermodynamics Brownian motion General relativity Big Bang Nucleosynthesis Inflation Atom Nucleus e- p+ n Particle zoo u μ - π νeνe νμνμ ντντ ds c τ-τ- τ-τ- b t Galaxies; expanding universe Nuclear fusion Cosmic Microwave Background GUT ν mass QCD Colour Dark Energy (?) Dark Matter WZ g Photon WeakStrong e+ p- Fermi Beta- Decay Yukawa π exchange Boltzmann Radio- activity Technologies Geiger Cloud Bubble Chamber Cyclotron DetectorAccelerator Cosmic rays Synchrotron e+e- collider p+p- collider Beam cooling Wire chamber Online computers WWW GRID Modern detectors P, C, CP violation STANDARD MODEL EW unification 3 generations CMB Inhomgeneities (COBE, WMAP) 1895 1905 1975

8 What are the most important questions that physics is asking?

9 © CERN http://cdsweb.cern.ch/record/910381/

10 Three fundamental questions drive the research at CERN Where do we come from? What are we made of? What is the future of the universe?

11 What do you need to be successful in Higher Physics? What do you need to be successful ?

12 Alvaro de Rujula, theoretical physicist, CERN It pays not to know very much (no preconceived ideas!) Challenge what you do know (let go of your misconceptions) Be young (most big discoveries are made by scientists early in their careers)

13 How Higher Physics students view physics Physics learning climbing wall mgh 1/2mv 2 What am I doing here? CERN February 2010CERN RCUK Teacher Programmes

14 Taking you on a tour … or a journey CERN February 2010CERN RCUK Teacher Programmes Skills Particles Electricity Waves Our Dynamic Universe Uncertainties Researching Physics NABs Electronics

15 And remember... to study physics © Mary Evans Picture Library

16 ‘The only way of discovering the limits of the possible is to venture a little way past them into the impossible.’ (Arthur C. Clarke, author of 2001 : A Space Odyssey)

Download ppt "There is nothing new to be discovered in physics now. All that remains is more and more precise measurement. (Lord Kelvin, 1900) Address to the British."

Similar presentations

The Big Bang, the LHC and the Higgs Boson Dr Cormac O’ Raifeartaigh (WIT)

The Big Bang, the LHC and the Higgs Boson Dr Cormac O’ Raifeartaigh (WIT)
Announcements Exam 2 is next time (March 4). Will cover Chapters 1 – 3 and Chapter 4 through page 98 (up to but not including Waves) of Foundations of.

Announcements Exam 2 is next time (March 4). Will cover Chapters 1 – 3 and Chapter 4 through page 98 (up to but not including Waves) of Foundations of.
Particle Physics in the International Baccalaureate Diploma (IB) A CERN HST-2010 working group proposal.

Particle Physics in the International Baccalaureate Diploma (IB) A CERN HST-2010 working group proposal.
10.1 EXPLAINING THE EARLY UNIVERSE SCIENCE 9 BLOCK C LIZ PEREJILO.

10.1 EXPLAINING THE EARLY UNIVERSE SCIENCE 9 BLOCK C LIZ PEREJILO.
Cutnell/Johnson Physics 7th edition

Cutnell/Johnson Physics 7th edition
By: Physics Chapter 10 Nuclear Physics. Basic Concepts There are 3 different types of particles we find within the atom. These are known as the Proton,

By: Physics Chapter 10 Nuclear Physics. Basic Concepts There are 3 different types of particles we find within the atom. These are known as the Proton,
CERN August 2011CERN Teacher Programmes1 CERN Teacher Programmes Inspiring the next generation of scientists Mick Storr Head CERN Teacher Programmes and.

CERN August 2011CERN Teacher Programmes1 CERN Teacher Programmes Inspiring the next generation of scientists Mick Storr Head CERN Teacher Programmes and.
CERN October 2014CERN Teacher Programmes1 CERN Teacher Programmes Inspiring the next generation of scientists Mick Storr CERN, JINR Dubna, and University.

CERN October 2014CERN Teacher Programmes1 CERN Teacher Programmes Inspiring the next generation of scientists Mick Storr CERN, JINR Dubna, and University.
HOPE August 20141 CERN Inspiring the next generation of scientists Mick Storr CERN and University of Birmingham.

HOPE August CERN Inspiring the next generation of scientists Mick Storr CERN and University of Birmingham.
A Scientific History of the Universe. How do we predict the conditions of the early universe? What are the different eras in the early universe? What.

A Scientific History of the Universe. How do we predict the conditions of the early universe? What are the different eras in the early universe? What.
ATLAS Experiment at CERN. Why Build ATLAS? Before the LHC there was LEP (large electron positron collider) the experiments at LEP had observed the W and.

ATLAS Experiment at CERN. Why Build ATLAS? Before the LHC there was LEP (large electron positron collider) the experiments at LEP had observed the W and.
A Short Introduction to Particle Physics What do we know? How do we know? What next? “Is there physics beyond the Standard Model?”

A Short Introduction to Particle Physics What do we know? How do we know? What next? “Is there physics beyond the Standard Model?”
Cosmology The Origin and Future of the Universe Part 2 From the Big Bang to Today.

Cosmology The Origin and Future of the Universe Part 2 From the Big Bang to Today.
The Big Bang Or… The Standard Model. Precepts of the standard model The laws of Physics are the same throughout the Universe. The Universe is expanding.

The Big Bang Or… The Standard Model. Precepts of the standard model The laws of Physics are the same throughout the Universe. The Universe is expanding.
Big Bang …..was actually very small and quiet. Atoms are mostly empty space.

Big Bang …..was actually very small and quiet. Atoms are mostly empty space.
Laura Gilbert How We Study Particles. The basics of particle physics! Matter is all made up of particles… Fundamental particle: LEPTON Fundamental particles:

Laura Gilbert How We Study Particles. The basics of particle physics! Matter is all made up of particles… Fundamental particle: LEPTON Fundamental particles:
Cloud Chambers and Cosmic Rays A Lesson Plan and Laboratory Activity for the High School Science Classroom Giant Solar Tadpoles born in enormous solar.

Cloud Chambers and Cosmic Rays A Lesson Plan and Laboratory Activity for the High School Science Classroom Giant Solar Tadpoles born in enormous solar.
Histoire de l’univers infinite, finite, infinite,.

Histoire de l’univers infinite, finite, infinite,.
Re-creating the Big Bang

Re-creating the Big Bang
The must fundamental constituents of matter Physics 100 Chapt 26.

The must fundamental constituents of matter Physics 100 Chapt 26.

Similar presentations

Ads by Google